CN216020034U

CN216020034U - Press bounce-back formula and ride horse and take out

Info

Publication number: CN216020034U
Application number: CN202121150202.6U
Authority: CN
Inventors: 伍仲杰
Original assignee: Zhongshan Hongshun Hardware Precision Product Co ltd
Current assignee: Guangdong Hongshun Hardware Precision Products Co.,Ltd.
Priority date: 2021-05-26
Filing date: 2021-05-26
Publication date: 2022-03-15
Anticipated expiration: 2031-05-26

Abstract

The utility model discloses a press rebounding type horse riding drawer which comprises a first slide rail, a second slide rail and a third slide rail, wherein the first slide rail, the second slide rail and the third slide rail are arranged in parallel along the telescopic direction of the horse riding drawer, and the second slide rail is arranged on the first slide rail and is connected with the first slide rail and the third slide rail in a sliding manner; and one side of the first sliding rail is provided with an ejecting mechanism, and the ejecting mechanism is connected with the third sliding rail through a connecting piece and drives the third sliding rail to rebound under pressure. According to the press rebounding type horse-riding drawer, the spring-out mechanism is directly added on the existing horse-riding drawer slide rail, the structure of the existing horse-riding drawer does not need to be greatly changed, and the cost of improving production can be effectively reduced; the pop-up mechanism is simple in structure and convenient to install, can rebound rapidly after being pressed by utilizing the push-push pop-up structure, and does not need assistance of an electronic device.

Description

Press bounce-back formula and ride horse and take out

Technical Field

The utility model relates to the field of hardware for furniture, in particular to a pressing rebound type horse riding drawer.

Background

The drawer is an important part in furniture storage, and the drawer which can be opened and closed smoothly and is simple and labor-saving to use is always the target of furniture manufacturers. The horse-riding drawer is a common drawer slide rail, and is popular with users due to smooth use, so that the current mainstream horse-riding drawer is still pulled out. In order to further facilitate users, manufacturers develop pressing rebound type horse riding drawers, but due to technical limitation, the existing pressing rebound type horse riding drawers are complex in structure, large in production difficulty and easy to damage, and are not beneficial to popularization and application.

Disclosure of Invention

In order to solve the problem that the structure of the pressing rebound type horse-riding drawer in the prior art is complex, the utility model provides the pressing rebound type horse-riding drawer, the spring mechanism is added on the existing horse-riding drawer, the spring mechanism utilizes the principle of a push-push spring structure, the spring is used as power to drive the horse-riding drawer to spring out after being pressed, and meanwhile, the synchronizing mechanism is arranged, so that the pressing rebound horse-riding drawers on two sides of the drawer are synchronously sprung out, and the phenomenon of blocking during springing out is avoided.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a press rebounding type riding bicycle comprises a first slide rail, a second slide rail and a third slide rail, wherein the first slide rail, the second slide rail and the third slide rail are arranged in parallel along the telescopic direction of the riding bicycle, and the second slide rail is arranged on the first slide rail and is connected with the first slide rail and the third slide rail in a sliding manner; and one side of the first sliding rail is provided with an ejecting mechanism, and the ejecting mechanism is connected with the third sliding rail through a connecting piece and drives the third sliding rail to rebound under pressure.

The technical scheme adopted by the utility model for solving the technical problem further comprises the following steps:

the press rebounding type horse riding drawer comprises an ejection base, an ejection piece, a guide rod and an ejection spring, the guide rod, the ejection piece and the ejection spring are arranged in the ejection base, a guide groove arranged along the length direction is arranged in the ejection base, the tail end of the guide groove is provided with a locking block, one end of the guide rod is a connecting end connected with the ejection piece, the other end of the guide rod is a guide end which is inserted in the guide groove and reciprocates in the guide groove, the guide end is in a hook shape capable of being hung on the locking block, one end of the pop-up spring is fixed at the front end of the pop-up base, the other end of the ejecting spring is connected with the ejecting piece, so that the ejecting piece moves towards the front end of the ejecting base under the driving of the ejecting spring, and the ejecting piece is provided with a connecting structure extending out of the ejecting base and connected with the connecting piece.

The press rebounding type horse riding extractor comprises a pushing block and a bayonet part arranged at the front end of the pushing block, wherein the connecting structure extends out of the top surface of the ejecting base and moves along with the ejecting part, the opening of the bayonet part faces upwards, a bayonet part matched with a bayonet is arranged on the connecting piece, and when the third slide rail moves forwards, the bayonet is clamped in the bayonet part to drive the ejecting part to move forwards.

The press rebounding type horse-riding extractor comprises a base, a clamping opening, a base, a limiting end and a guide groove, wherein the clamping opening is arranged on the base, the base is provided with a top surface, the clamping opening is in reciprocating motion along the top surface of the ejecting base, the bottom surface of the ejecting piece is provided with an inclined surface enabling the ejecting piece to incline forwards, the front end of the clamping opening is provided with the limiting end abutted to the top surface of the ejecting base, a notch used for accommodating the limiting end is arranged on the top surface of the ejecting base, and the notch is arranged on the top surface of the ejecting base in front of the guide groove.

According to the press rebounding type horse riding drawer, the ejecting base is provided with the ejecting groove on the bottom surface, the ejecting groove is formed in the bottom surface of the ejecting base between the notch and the guide groove, and the front end of the ejecting groove is provided with the limiting step for limiting the ejecting piece to move forwards.

The press rebounding type horse riding drawer comprises a synchronizing mechanism which enables the press rebounding type horse riding drawers arranged on two sides of the same drawer to synchronously move, the synchronizing mechanism comprises a synchronizing block, a synchronizing rod and a synchronizing base, the synchronizing block is arranged in the ejecting base and connected with the rear end of the ejecting piece, a synchronizing rack arranged along the sliding direction of a third sliding rail is arranged on the bottom surface of the synchronizing block, the synchronizing base is arranged on the outer side of the bottom surface of the ejecting base, gear parts meshed with the synchronizing rack are fixedly connected to two ends of the synchronizing rod, one end of the synchronizing rod is inserted into the synchronizing base, and the other end of the synchronizing rod is connected with the other press rebounding type horse riding drawer, so that the two press rebounding type horse riding drawers synchronously move under the driving of the synchronizing rod.

The press rebounding type horse riding drawer is characterized in that a reset sleeve is arranged between the gear part and the synchronizing rod, the gear part is inserted into the reset sleeve, a reset spring is arranged in the reset sleeve, and the reset spring is sleeved on the gear part and keeps the gear part away from the synchronizing rod.

The press rebounding type horse riding drawer is characterized in that the bottom surface of the popping base is provided with a switching gear, the switching gear is rotatably fixed on the bottom surface of the popping base, the switching gear is meshed with the synchronous rack and the gear part, and the switching gear is connected with the synchronous rack and the gear part.

According to the press rebounding type horse riding drawer, the first slide rail is provided with the blocking piece for limiting backward movement, and the blocking piece is arranged on the top surface of the first slide rail corresponding to the locking block.

The press rebounding type horse-riding extractor comprises a pressing rebounding type horse-riding extractor body, wherein an adjusting mechanism capable of adjusting the position of the ejecting mechanism in a front-back mode is arranged at the front end of the ejecting mechanism, the adjusting mechanism comprises an adjusting fixing seat and an adjusting screw arranged along the sliding direction of a third sliding rail, the adjusting screw is rotatably fixed at the front end of the adjusting fixing seat, and the rear end of the adjusting screw is rotatably connected with the front end of the ejecting mechanism in a threaded mode.

The utility model has the beneficial effects that: according to the press rebounding type horse-riding drawer, the spring-out mechanism is directly added on the existing horse-riding drawer slide rail, the structure of the existing horse-riding drawer does not need to be greatly changed, and the cost of improving production can be effectively reduced; the pop-up mechanism is simple in structure and convenient to install, can quickly rebound after being pressed by utilizing the push-push pop-up structure, does not need any electronic device for assistance, is very low in use and production cost, and is suitable for being applied to furniture in a large number; be equipped with lazytongs for two of a drawer press down the bounce-back formula and ride the horse and take out and can synchronous motion, avoid the drawer to take out asynchronous and block in the cabinet body influence the use owing to riding on both sides.

The utility model will be further described with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of a press-rebounding type horse-riding pump of the present invention;

FIG. 2 is a schematic diagram of the exploded structure of the ejection mechanism of the preferred embodiment of the push-to-bounce horse-riding pump of the present invention;

FIG. 3 is a schematic cross-sectional view of a preferred embodiment of the push-to-bounce riding horse pump of the present invention taken along the axis of the synchronizing bar;

in the figure, 1, an L-shaped bracket, 2, a first slide rail, 21, a blocking piece, 3, a second slide rail, 4, a third slide rail, 41, a connecting piece, 411, a clamping pin, 5, an ejection mechanism, 51, an ejection base, 511, a guide groove, 5111, a locking piece, 512, a notch, 513, a releasing groove, 5131, a limit step, 52, an ejection piece, 521, a pushing block, 522, a clamping opening part, 523, an inclined plane, 524, a limit end, 53, a guide rod, 54, an ejection spring, 55, a switching gear, 6, a synchronization mechanism, 61, a synchronization block, 611, a synchronization rack, 62, a synchronization rod, 621, a gear part, 622, a reset sleeve, 623, a reset spring, 63, a synchronization base, 7, an adjusting mechanism, 71, an adjusting fixed seat, 72 and an adjusting screw.

Detailed Description

The present embodiment is a preferred embodiment of the present invention, and other principles and basic structures that are the same as or similar to the present embodiment are within the scope of the present invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the utility model.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "plurality" or "a plurality" means two or more unless specifically defined otherwise.

The preferred embodiment of the press-type bounce-back horse riding machine is shown in figures 1-3 and comprises an L-shaped bracket 1, a first slide rail 2, a second slide rail 3, a third slide rail 4 and an ejection mechanism 5. In this embodiment, for the convenience of installation, it is equipped with L type support 1 to press the bounce-back formula on horse, L type support 1 is equipped with two, a side of L type support 1 sets up and fixes on the internal wall of cabinet of installation drawer along vertical direction, another side of L type support 1 sets up along the horizontal direction, first slide rail 2, second slide rail 3 and third slide rail 4 are along the mutual parallel arrangement of the flexible direction of taking out on horse, and erect on the side that L type support 1 set up along the horizontal direction, first slide rail 2 and L type support 1 fixed connection, second slide rail 3 sets up on first slide rail 2 and first slide rail 2 of sliding connection and third slide rail 4, make second slide rail 3 and third slide rail 4 can move for first slide rail 2 along length direction. The ejection mechanism 5 is fixedly installed on one side of the first slide rail 2 facing the L-shaped bracket 1, and the ejection mechanism 5 is connected with the third slide rail 4 through a connecting piece 41 and drives the third slide rail 4 to eject after being pressed.

The pop-up mechanism 5 in the present embodiment is modified from the push-push pop-up structure of the push-bounce type horse-riding drawing of the present embodiment, and includes a pop-up base 51, a pop-up member 52, a guide lever 53, and a pop-up spring 54, and the guide lever 53, the pop-up member 52, and the pop-up spring 54 are disposed in the pop-up base 51. The pop-up base 51 is provided with a guide groove 511 arranged along the length direction, the tail end of the guide groove 511 is provided with a locking block 5111, and the rear end of the locking block 5111 is provided with a notch sunken towards the middle part. One end of the guide rod 53 is a connection end connected to the ejector 52, and the other end of the guide rod 53 is a guide end inserted into the guide groove 511 and reciprocated in the guide groove 511, and the guide end is in a hook shape capable of being hung on the notch of the locking block 5111. One end of the eject spring 54 is fixed to the front end of the eject base 51, and the other end of the eject spring 54 is connected to the eject member 52, so that the eject member 52 moves toward the front end of the eject base 51 under the driving of the eject spring 54. In order to drive the slide rail to pop out, the ejecting piece 52 is provided with a connecting structure which extends out of the ejecting base 51 and is connected with the connecting piece 41.

In this embodiment, the connecting structure includes an abutting block 521 and a bayonet portion 522 disposed at the front end of the abutting block 521, and the connecting mechanism extends from the top surface of the ejecting base 51 and moves along the top surface along with the ejecting member 52. The opening of the bayonet portion 522 is upward, the connecting piece 41 is provided with a bayonet 411 which is matched with the bayonet portion 522, and when the ejection piece 52 moves backwards, the bayonet 411 can be clamped into the bayonet portion 522; when the third slide rail 4 moves forward, the latch 411 is caught in the latch portion 522, and the ejector 52 is driven to move forward.

In this embodiment, the bayonet portion 522 moves along the top surface of the eject base 51, and in order to make the eject member 52 move smoothly, the bayonet pin 411 does not fall off from the bayonet portion 522 at will, and the front end of the bayonet portion 522 is provided with a limit end 524 abutting against the top surface of the eject base 51, so that the eject member 52 is kept horizontal during forward movement. However, since the length of the eject base 51 is limited, the length of the eject member 52 that can move is limited, and in order to allow the detent 411 to automatically escape from the catch portion 522 after moving forward to a predetermined position without affecting the further forward movement of the third slide rail 4, the bottom surface of the eject member 52 is provided with a slope 523 that allows the eject member 52 to tilt forward, a recess 512 for accommodating the stopper 524 is provided on the top surface of the eject base 51, and the recess 512 is provided on the top surface of the eject base 51 in front of the guide groove 511. When the ejector 52 moves to a predetermined position, the stopper end 524 is inserted downward into the notch 512 by the force of the detent 411, and also provides a space for the ejector 52 to tilt forward so that the stopper end 524 can be downward due to the presence of the slope 523, and the height of the bayonet portion 522 can be lowered so that the detent 411 can escape from the bayonet portion 522 in conjunction with the presence of the slope 523.

In order to further ensure that the latch 411 can be smoothly released from the latching portion 522, a releasing groove 513 is formed on the bottom surface of the ejecting base 51, the releasing groove 513 is formed on the bottom surface of the ejecting base 51 between the recess 512 and the guide groove 511, and a limit step 5131 for limiting the forward movement of the ejecting member 52 is formed at the front end of the releasing groove 513. When the ejector 52 moves to the disengagement groove 513, the front end falls into the disengagement groove 513, so that the limit end 524 is lowered, the detent 411 abuts against the front end of the ejector 52 from the locking part 522, and the limit step 5131 limits the ejector 52 to move forward continuously.

In order to enable the horseback riding drawers on two sides of the drawer to synchronously pop out and avoid clamping in use, the pressing rebounding horseback riding drawer of the embodiment is provided with a synchronizing mechanism 6, and the synchronizing mechanism 6 comprises a synchronizing block 61, a synchronizing rod 62 and a synchronizing base 63. The synchronizing block 61 is disposed in the ejecting base 51 and connected to the rear end of the ejecting member 52, and can move back and forth under the driving of the ejecting member 52, and a synchronizing rack 611 disposed along the sliding direction of the third sliding rail 4 is disposed on the bottom surface of the synchronizing block 61. The synchronizing base 63 is disposed outside the bottom surface of the pop-up base 51, gear portions 621 meshed with the synchronizing rack 611 are fixedly connected to two ends of the synchronizing rod 62, and the gear portions 621 can drive the synchronizing rod 62 to rotate. One end cartridge of synchronizing bar 62 is in synchronous base 63, and the other end of synchronizing bar 62 is connected with another pressure bounce-type horse riding pump, and when the ejecting piece 52 of the pressure bounce-type horse riding pump of one side removed, synchronizing block 61 removed simultaneously and drove gear portion 621 through synchronous rack 611 and rotate for synchronizing bar 62 rotated thereupon, drove the pressure bounce-type horse riding pump simultaneous movement of the other side.

In order to facilitate the installation of the synchronizing mechanism 6, a reset sleeve 622 is disposed between the gear portion 621 and the synchronizing rod 62, the gear portion 621 is inserted into the reset sleeve 622, a reset spring 623 is disposed in the reset sleeve 622, and the reset spring 623 is sleeved on the gear portion 621 and keeps the gear portion 621 away from the synchronizing rod 62. During production, the synchronizing block 61 is installed in the pop-up base 51, the synchronizing seat 63 is installed at the position, opposite to the synchronizing block 61, of the bottom of the pop-up base 51 during installation, after the pressing rebounding type horse riding drawers on two sides of the drawer are installed, one end of the synchronizing rod 62 is inserted into the synchronizing seat 63 on one side, the other end of the synchronizing rod 62 is pressed to be shortened and inserted into the synchronizing seat 63 on the other side, and the synchronizing rod 62 is installed after hands are released.

In this embodiment, in order to stably mount the synchronizing block 61 in the pop-up base 51, the bottom surface of the pop-up base 51 is provided with the adapting gear 55, the adapting gear 55 is rotatably fixed on the bottom surface of the pop-up base 51, the adapting gear 55 is meshed with the synchronizing rack 611 and the gear portion 621, and the adapting gear 55 is connected with the synchronizing rack 611 and the gear portion 621.

In this embodiment, the first slide rail 2 is provided with a blocking piece 21 for limiting the backward movement of the third slide rail 4, and the blocking piece 21 is disposed on the top surface of the first slide rail 2 corresponding to the locking block 5111, so as to prevent the first slide rail 2 from moving backward beyond a predetermined position and damaging the ejection member 52 when the drawer is closed.

When the drawer is installed, a certain pressing gap can be left between the panel of the drawer and the cabinet body in order to leave a certain gap so that the pressing rebound type horse riding drawer has a pressing room, but the sealing performance of the drawer can be influenced by the overlarge gap, and at the moment, the drawer needs to be adjusted according to the field situation of installation. In order to facilitate the installer to adjust the pressing gap according to the actual situation of the cabinet, the front end of the pop-up mechanism 5 of this embodiment is provided with an adjusting mechanism 7 capable of adjusting the position of the pop-up mechanism 5 forward and backward, the adjusting mechanism 7 includes an adjusting fixing seat 71 and an adjusting screw 72 arranged along the sliding direction of the third slide rail 4, the adjusting screw 72 is rotatably fixed at the front end of the adjusting fixing seat 71, and the rear end of the adjusting screw 72 is rotatably connected with the front end of the pop-up mechanism 5 through a thread. When the ejection mechanism 5 is mounted, the position of the ejection mechanism can be finely adjusted by rotating the adjusting screw 72 mounted on the adjusting holder 71.

According to the press rebounding type horse-riding drawer, the spring-out mechanism is directly added on the existing horse-riding drawer slide rail, the structure of the existing horse-riding drawer does not need to be greatly changed, and the cost of improving production can be effectively reduced; the pop-up mechanism is simple in structure and convenient to install, can quickly rebound after being pressed by utilizing the push-push pop-up structure, does not need any electronic device for assistance, is very low in use and production cost, and is suitable for being applied to furniture in a large number; be equipped with lazytongs for two of a drawer press down the bounce-back formula and ride the horse and take out and can synchronous motion, avoid the drawer to take out asynchronous and block in the cabinet body influence the use owing to riding on both sides.

Claims

1. The press rebounding type horse riding drawer is characterized by comprising a first slide rail (2), a second slide rail (3) and a third slide rail (4), wherein the first slide rail (2), the second slide rail (3) and the third slide rail (4) are arranged in parallel along the telescopic direction of the horse riding drawer, and the second slide rail (3) is arranged on the first slide rail (2) and is connected with the first slide rail (2) and the third slide rail (4) in a sliding manner; one side of the first sliding rail (2) is provided with an ejecting mechanism (5), and the ejecting mechanism (5) is connected with the third sliding rail (4) through a connecting piece (41) and drives the third sliding rail (4) to rebound under pressure.

2. The push-type horse-riding extractor according to claim 1, wherein the ejecting mechanism (5) comprises an ejecting base (51), an ejecting member (52), a guide rod (53) and an ejecting spring (54), the guide rod (53), the ejecting member (52) and the ejecting spring (54) are arranged in the ejecting base (51), a guide slot (511) arranged along the length direction is arranged in the ejecting base (51), a locking block (5111) is arranged at the tail end of the guide slot (511), one end of the guide rod (53) is a connecting end connected with the ejecting member (52), the other end of the guide rod (53) is a guide end inserted in the guide slot (511) and reciprocating in the guide slot (511), the guide end is of a hook type capable of being hung on the locking block (5111), one end of the ejecting spring (54) is fixed at the front end of the ejecting base (51), the other end of the ejecting spring (54) is connected with the ejecting piece (52), so that the ejecting piece (52) moves towards the front end of the ejecting base (51) under the driving of the ejecting spring (54), and a connecting structure extending out of the ejecting base (51) and connected with the connecting piece (41) is arranged on the ejecting piece (52).

3. The press-type rebounding horse-riding extractor according to claim 2, wherein the connecting structure comprises a pushing block (521) and a bayonet part (522) arranged at a front end of the pushing block (521), the connecting structure extends out from a top surface of the ejecting base (51) and moves along the top surface along with the ejecting piece (52), an opening of the bayonet part (522) faces upwards, a bayonet pin (411) matched with the bayonet part (522) is arranged on the connecting piece (41), and when the third sliding rail (4) moves forwards, the bayonet pin (411) is clamped in the bayonet part (522) to drive the ejecting piece (52) to move forwards.

4. The push-type horse-riding extractor according to claim 3, wherein the bayonet part (522) reciprocates along the top surface of the eject base (51), the bottom surface of the eject member (52) is provided with a slope (523) enabling the eject member (52) to incline forward, the front end of the bayonet part (522) is provided with a stopper end (524) abutting against the top surface of the eject base (51), the top surface of the eject base (51) is provided with a notch (512) for accommodating the stopper end (524), and the notch (512) is provided on the top surface of the eject base (51) in front of the guide groove (511).

5. The push-type rebounding type horse-riding drawer according to claim 4, wherein a releasing groove (513) is provided on the bottom surface of the releasing base (51), the releasing groove (513) is provided on the bottom surface of the releasing base (51) between the recess (512) and the guide groove (511), and a front end of the releasing groove (513) is provided with a limit step (5131) for limiting the forward movement of the releasing member (52).

6. The push-type resilient horse-riding drawer according to claim 2, wherein the push-type resilient horse-riding drawer is provided with a synchronizing mechanism (6) for synchronously moving the push-type resilient horse-riding drawers disposed at both sides of the same drawer, the synchronizing mechanism (6) comprises a synchronizing block (61), a synchronizing rod (62) and a synchronizing base (63), the synchronizing block (61) is disposed in the pop-up base (51) and connected to the rear end of the pop-up member (52), a synchronizing rack (611) disposed along the sliding direction of the third slide rail (4) is disposed on the bottom surface of the synchronizing block (61), the synchronizing base (63) is disposed outside the bottom surface of the pop-up base (51), gear portions (621) engaged with the synchronizing rack (611) are fixedly connected to both ends of the synchronizing rod (62), and one end of the synchronizing rod (62) is inserted into the synchronizing base (63), the other end of the synchronizing rod (62) is connected with the other pressing rebounding type horse riding drawer, so that the synchronizing blocks (61) of the two pressing rebounding type horse riding drawers synchronously move under the driving of the synchronizing rod (62).

7. The push-type horse-riding extractor according to claim 6, wherein a reset sleeve (622) is provided between the gear portion (621) and the synchronizing rod (62), the gear portion (621) is inserted into the reset sleeve (622), a reset spring (623) is provided in the reset sleeve (622), and the reset spring (623) is sleeved on the gear portion (621) and keeps the gear portion (621) away from the synchronizing rod (62).

8. The push-bounce horse-riding drawer according to claim 7, characterized in that an adapter gear (55) is provided on the bottom surface of the pop-up base (51), the adapter gear (55) is rotatably fixed on the bottom surface of the pop-up base (51), the adapter gear (55) is engaged with the synchronizing rack (611) and the gear portion (621), and the adapter gear (55) connects the synchronizing rack (611) and the gear portion (621).

9. The push-type horse-riding extractor according to claim 2, wherein the first slide rail (2) is provided with a blocking piece (21) for limiting the backward movement of the third slide rail (4), and the blocking piece (21) is arranged on the top surface of the first slide rail (2) corresponding to the locking block (5111).

10. The press-type rebounding type horse-riding extractor according to claim 1, wherein the front end of the ejecting mechanism (5) is provided with an adjusting mechanism (7) capable of adjusting the position of the ejecting mechanism (5) back and forth, the adjusting mechanism (7) comprises an adjusting fixing seat (71) and an adjusting screw (72) arranged along the sliding direction of the third sliding rail (4), the adjusting screw (72) is rotatably fixed at the front end of the adjusting fixing seat (71), and the rear end of the adjusting screw (72) is rotatably connected with the front end of the ejecting mechanism (5) in a threaded manner.