CN115838142A - Locking assembly and lifting platform with same - Google Patents

Abstract

The embodiment of the application provides a locking Assembly and have its elevating platform, and this locking Assembly includes: a fixed seat; the first end of the first locking piece is connected to the first end of the fixed seat in a rotatable mode, and a first locking hole is formed in the first locking piece; the first end of the second locking piece is connected to the second end of the fixed seat in a rotatable mode, and a second locking hole is formed in the second locking piece; the locking rod is connected with the fixed seat in a slidable mode and penetrates through the first locking hole and the second locking hole. The locking state or the unlocking state of the locking assembly can be switched by controlling the angle between the first locking piece and the axis of the locking rod and the angle between the second locking piece and the axis of the locking rod.

Description

Locking assembly and lifting platform with same

Technical Field

The application relates to the technical field of lifting mechanisms, in particular to a locking assembly and a lifting platform with the same.

Background

The existing non-electric lifting platforms can be roughly divided into two types: one type is that a self-locking gas spring is used for providing lifting power, and the table top is fixed at a desired position through the locking function of the self-locking gas spring so as to realize the adjustment of the height of the table top, the cost of the lifting table is higher, the lifting stroke of the lifting table is fixed, and any stroke cannot be cancelled; another type is to use a mechanical spring or a non-locking gas spring to provide the lifting power, and use a structure similar to a bayonet lock to limit the height of the table top by inserting a conical or rod-shaped locking piece into a positioning hole or a positioning groove provided in the lifting assembly, and since the position of the positioning hole or the positioning groove provided in the lifting assembly is fixed and a certain distance exists between adjacent positioning holes or positioning grooves, the heights at which the table top can be locked are also fixed and have corresponding distances.

Disclosure of Invention

The embodiment of the application aims to provide a locking assembly and a lifting platform with the same so as to realize stepless adjustment of the height of a platform surface. The specific technical scheme is as follows:

an embodiment of a first aspect of the present application provides a locking assembly, comprising: a fixed seat; the first end of the first locking piece is connected to the first end of the fixed seat in a rotatable mode, and a first locking hole is formed in the first locking piece; the first end of the second locking piece is connected to the second end of the fixed seat in a rotatable mode, and a second locking hole is formed in the second locking piece; the locking rod is connected with the fixed seat in a sliding mode and penetrates through the first locking hole and the second locking hole; wherein the locking assembly has a locking state and an unlocking state which can be switched with each other; when the locking assembly is in the locking state, a first angle is formed between the first locking piece and the axis of the locking rod, the hole wall of the first locking hole is tightly abutted against the locking rod, a second angle is formed between the second locking piece and the axis of the locking rod, and the hole wall of the second locking hole is tightly abutted against the locking rod; when the locking assembly is in the unlocking state, a gap is formed between the first locking piece and the axis of the locking rod, the third angle is larger than the first angle, a gap is formed between the hole wall of the first locking hole and the locking rod, a gap is formed between the second locking piece and the axis of the locking rod, the fourth angle is larger than the second angle, and a gap is formed between the hole wall of the second locking hole and the locking rod.

According to the locking assembly provided by the embodiment of the first aspect of the present application, the locking assembly includes a fixing seat, a first locking piece, a second locking piece and a locking rod, the locking rod is slidably connected with the fixing seat and penetrates through a first locking hole formed in the first locking piece and a second locking hole formed in the second locking piece, a first end of the first locking piece is rotatably connected to a first end of the fixing seat, and a first end of the second locking piece is rotatably connected to a second end of the fixing seat. By applying the locking assembly provided by the embodiment of the first aspect of the application, the relative position of the locking rod and the fixed seat can be locked or unlocked by controlling the angle between the first locking piece and the axis of the locking rod and the angle between the second locking piece and the axis of the locking rod, so that the locking assembly is in a locked state or an unlocked state. For example, if the locking assembly needs to be kept in the locking state, the first locking piece and the axis of the locking rod are controlled to form a first angle, the hole wall of the first locking hole is tightly abutted to the locking rod, the second locking piece and the axis of the locking rod form a second angle, and the hole wall of the second locking hole is tightly abutted to the locking rod, in this case, as the first locking piece and the second locking piece are respectively arranged at the two ends of the fixed seat, it can be understood that under the friction action of the hole wall of the first locking hole and the locking rod and the friction action of the hole wall of the second locking hole and the locking rod, the two sliding directions of the locking rod relative to the fixed seat are both locked, that is, the locking rod is fixed, and the locking assembly is in the locking state; if the locking assembly needs to be kept in an unlocking state, the first locking piece and the axis of the locking rod are controlled to form a third angle larger than the first angle, a gap is formed between the hole wall of the first locking hole and the locking rod, a fourth angle larger than the second angle is formed between the second locking piece and the axis of the locking rod, and a gap is formed between the hole wall of the second locking hole and the locking rod. Therefore, by applying the locking assembly provided by the embodiment of the first aspect of the application, the relative position of the locking rod and the fixed seat can be adjusted at will, and the locking rod can be locked at any relative position, so that compared with the adoption of a gas spring, the cost is effectively saved, stepless adjustment can be realized, and the technical value and the economic value are higher.

In some embodiments of the present application, the locking assembly further comprises a first spring and a second spring, a first end of the first spring abuts against the fixed seat, and a second end of the first spring abuts against the first locking piece; the first end of the second spring is abutted to the fixed seat, and the second end of the second spring is abutted to the second locking piece.

In some embodiments of the present application, the locking assembly further comprises a control mechanism configured to control an angle between the first locking tab and the axis of the locking rod and an angle between the second locking tab and the axis of the locking rod.

In some embodiments of the present application, the control mechanism includes a sleeve and a brake cable, the brake cable is slidably disposed through the sleeve, a first end of the brake cable is connected to a second end of the first locking tab, and the first end of the sleeve abuts against a side of the second locking tab away from the first locking tab.

Embodiments of a second aspect of the present application provide a lift table comprising a table top, a cross bar assembly disposed at a bottom of the table top, and a locking assembly provided in accordance with embodiments of the first aspect of the present application; the fixing seat of the locking assembly is fixedly connected with the table top, and the first end of the locking rod of the locking assembly is connected with the cross rod assembly.

According to the second aspect of the application, an embodiment provides a lifting platform, which comprises a platform surface, a cross rod assembly and a locking assembly, wherein the cross rod assembly and the locking assembly are both arranged at the bottom of the platform surface, a fixed seat of the locking assembly is fixedly connected with the platform surface, a locking rod of the locking assembly is connected with the fixed seat in a slidable mode, and a first end of the locking rod is connected with the cross rod assembly. According to the embodiment of the first aspect of the present application, a locking assembly is provided, which has a locking state and an unlocking state that can be switched mutually, so that, by switching the locking state or the unlocking state of the locking assembly 10, the cross bar assembly connected with the locking assembly can be locked or unlocked, thereby realizing the adjustment of the height of the table top connected with the cross bar assembly. For example, when the height of the table top needs to be adjusted, the first locking piece and the axis of the locking rod are controlled to form a third angle larger than the first angle, a gap is formed between the hole wall of the first locking hole and the locking rod, a fourth angle larger than the second angle is formed between the second locking piece and the axis of the locking rod, and a gap is formed between the hole wall of the second locking hole and the locking rod, so that the locking assembly is in an unlocking state; after the height of the table top is determined, the first angle between the first locking piece and the axis of the locking rod is controlled, the hole wall of the first locking hole is tightly abutted to the locking rod, the second angle between the second locking piece and the axis of the locking rod is controlled, the hole wall of the second locking hole is tightly abutted to the locking rod, so that the locking assembly is in a locking state, in this case, the first locking piece and the second locking piece are respectively arranged at two ends of the fixed seat, and therefore, under the friction action of the hole wall of the first locking hole and the locking rod and the friction action of the hole wall of the second locking hole and the locking rod, the locking rod is locked relative to two sliding directions of the fixed seat fixed at the bottom of the table top, the cross angle of the cross rod assembly connected with the locking rod is also locked, and further the height of the table top connected with the cross rod assembly is locked. Therefore, the lifting platform provided by the embodiment of the second aspect of the application can be used for locking the height of the platform surface at any position, namely stepless adjustment of the height of the platform surface can be realized, the cost is effectively saved compared with the lifting platform adopting an air spring, and the application has higher technical value and economic value.

In some embodiments of the present application, the locking assembly further comprises a first spring and a second spring, a first end of the first spring abuts against the fixed seat, and a second end of the first spring abuts against the first locking piece; the first end of the second spring is abutted against the fixed seat, and the second end of the second spring is abutted against the second locking sheet; the locking assembly further comprises a control mechanism, the control mechanism comprises a sleeve and a brake cable, the brake cable penetrates through the sleeve in a sliding mode relative to the sleeve, a first end of the brake cable is connected with a second end of a first locking piece of the locking assembly, and a first end of the sleeve is abutted against one side, away from the first locking piece, of a second locking piece of the locking assembly; control mechanism still include with the control handle that the second end of floodgate line is connected, control handle includes mount pad, connecting piece, rotates piece and handle body, the mount pad is fixed the bottom of mesa, the connecting piece with the mount pad is connected, it locates with rotatable mode cover to rotate the piece, the first end that rotates the piece with this body coupling of handle, the second end that rotates the piece with the floodgate line the second end is connected.

In some embodiments of the present application, the cross-bar assembly includes a first support bar and a second support bar, a middle portion of the first support bar and a middle portion of the second support bar are hinged, a first end of the first support bar is hinged to a bottom of the table top, and the first end of the locking bar is connected to a first end of the second support bar; the lifting platform further comprises a third spring, the first end of the third spring is close to the first end of the first supporting rod and is fixed at the bottom of the table top, and the second end of the third spring is connected with the first end of the second supporting rod.

In some embodiments of the present application, the cross-bar assembly includes a first support bar, a second support bar, and a connecting bar, a middle portion of the first support bar and a middle portion of the second support bar are hinged, a first end of the first support bar is hinged to a bottom of the table top, the connecting bar is connected to a first end of the second support bar, and the first end of the locking bar is connected to the connecting bar; the lifting platform further comprises a third spring, the first end of the third spring is close to the first end of the first supporting rod and is fixed to the bottom of the table board, and the second end of the third spring is connected with the connecting rod.

In some embodiments of the present application, the locking rod comprises a lockable segment and a non-lockable segment, the non-lockable segment having a diameter less than a diameter of the lockable segment; wherein the locking assembly is switchable between the locked state and the unlocked state when both the first locking hole of the first locking tab of the locking assembly and the second locking hole of the second locking tab of the locking assembly are in the lockable rod segment; when the first lock hole is positioned in the lockable rod section, a gap is always reserved between the hole wall of the first lock hole and the lock rod; when the second lock hole is positioned in the lockable rod section, a gap is always reserved between the hole wall of the second lock hole and the locking rod.

In some embodiments of the present application, the lift table further comprises a resilient member disposed at a bottom of the table top, the resilient member being configured to contact the first support bar and/or the second support bar with the table top in a lowermost position.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and it is also obvious for a person skilled in the art to obtain other embodiments according to the drawings.

Fig. 1 is a schematic structural diagram of a locking assembly according to an embodiment of the present disclosure;

FIG. 2 is an exploded view of a locking assembly according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an elevator platform according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an elevating platform provided in the embodiment of the present application;

fig. 5 is a schematic partial structural view of an elevating platform according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of another locking assembly provided in the embodiments of the present application.

Detailed Description

For convenience in description, spatially relative terms, such as "inner", "outer", "lower", "below", "upper", "above", and the like, are used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures.

The technical solutions in the embodiments of the present application will be described below clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by those of ordinary skill in the art based on the embodiments in the present application are within the scope of the protection of the present application.

Referring to fig. 1 and 2, an embodiment of a first aspect of the present application provides a locking assembly 10, where the locking assembly 10 includes a holder 11, a first locking piece 12, a second locking piece 13, and a locking lever 14. Wherein, the first end of the first locking piece 12 is rotatably connected to the first end of the fixing seat 11, and the first locking piece 12 is provided with a first locking hole 121; a first end of the second locking piece 13 is rotatably connected to a second end of the fixed seat 11, and a second locking hole 131 is formed in the second locking piece 13; the locking rod 14 is slidably connected to the fixing base 11, and the locking rod 14 is disposed through the first locking hole 121 and the second locking hole 131. The locking assembly 10 has a locking state and an unlocking state that are switchable with each other: when the locking assembly 10 is in the locking state, a first angle is formed between the first locking piece 12 and the axis of the locking rod 14, the hole wall of the first locking hole 121 is tightly abutted against the locking rod 14, a second angle is formed between the second locking piece 13 and the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14; when the locking assembly 10 is in the unlocked state, a third angle larger than the first angle is formed between the first locking piece 12 and the axis of the locking rod 14, a gap is formed between the hole wall of the first locking hole 121 and the locking rod 14, a fourth angle larger than the second angle is formed between the second locking piece 13 and the axis of the locking rod 14, and a gap is formed between the hole wall of the second locking hole 131 and the locking rod 14.

According to the embodiment of the first aspect of the present application, a locking assembly 10 is provided, which includes a fixing base 11, a first locking plate 12, a second locking plate 13 and a locking rod 14, wherein the locking rod 14 is slidably connected to the fixing base 11 and passes through a first locking hole 121 disposed on the first locking plate 12 and a second locking hole 131 disposed on the second locking plate 13, a first end of the first locking plate 12 is rotatably connected to a first end of the fixing base 11, and a first end of the second locking plate 13 is rotatably connected to a second end of the fixing base 11. By applying the locking assembly 10 provided in the embodiment of the first aspect of the present application, the relative position between the locking rod 14 and the fixing seat 11 can be locked or unlocked by controlling the angle between the first locking piece 12 and the axis of the locking rod 14 and the angle between the second locking piece 13 and the axis of the locking rod 14, so that the locking assembly 10 is in the locked state or the unlocked state. For example, if the locking assembly 10 needs to be kept in the locked state, the first locking piece 12 is controlled to form a first angle with the axis of the locking rod 14, the hole wall of the first locking hole 121 is tightly abutted against the locking rod 14, the second locking piece 13 is controlled to form a second angle with the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, in this case, because the first locking piece 12 and the second locking piece 13 are respectively arranged at two ends of the fixing base 11, it can be understood that under the friction action between the hole wall of the first locking hole 121 and the locking rod 14 and between the hole wall of the second locking hole 131 and the locking rod 14, the locking rod 14 is locked in both sliding directions relative to the fixing base 11, that is, the locking rod 14 is fixed at this time, and the locking assembly is in the locked state; if the locking assembly 10 needs to be kept in the unlocked state, the first locking piece 12 and the axis of the locking rod 14 are controlled to form a third angle larger than the first angle, a gap is formed between the hole wall of the first locking hole 121 and the locking rod 14, a fourth angle larger than the second angle is formed between the second locking piece 13 and the axis of the locking rod 14, and a gap is formed between the hole wall of the second locking hole 131 and the locking rod 14, in this case, both the hole wall of the first locking hole 121 and the hole wall of the second locking hole 131 have no friction with the locking rod 14, the locking rod 14 can pass through the first locking hole 121 and the second locking hole 131, that is, at this time, the locking rod 14 can freely slide relative to the fixing seat 11, and the locking assembly 10 is in the unlocked state. It can be seen that, by applying the locking assembly 10 provided in the embodiment of the first aspect of the present application, the relative position between the locking rod 14 and the fixing seat 11 can be adjusted at will, and the locking rod 14 can be locked at any relative position, so that compared with the use of a gas spring, the cost is effectively saved, stepless adjustment can be realized, and the locking assembly has high technical value and economic value.

It is understood that the second angle may be equal to or different from the first angle, and the locking assembly 10 may be in the locking state as long as the hole wall of the first locking hole 121 is tightly abutted against the locking rod 14 and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14; similarly, the third angle may be equal to or different from the fourth angle, and if the locking assembly 10 needs to be switched to the unlocking state, the locking assembly 10 can be switched to the unlocking state by controlling the angle between the first locking piece 12 and the axis of the locking rod 14 and the angle between the second locking piece 13 and the axis of the locking rod 14 to be increased, so that a gap is formed between the hole wall of the first locking hole 121 and the locking rod 14, and a gap is formed between the hole wall of the second locking hole 131 and the locking rod 14.

In some embodiments of the present application, referring to fig. 2 and 6, the locking assembly 10 further includes a first spring 153 and a second spring 154, a first end of the first spring 153 abuts against the fixed seat 11, and a second end of the first spring 153 abuts against the first locking piece 12; a first end of the second spring 154 abuts against the fixed seat 11, and a second end of the second spring 154 abuts against the second locking piece 13. When no external force acts: under the elastic force of the first spring 153, a first angle can be always kept between the first locking piece 12 and the axis of the locking rod 14, and the hole wall of the first locking hole 121 is tightly abutted to the locking rod 14; similarly, under the action of the elastic force of the second spring 154, the second angle between the second locking piece 13 and the axis of the locking rod 14 can be always kept, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, which can be understood that under the action of the first spring 153 and the second spring 154, the locking assembly 10 can be always kept in the locking state; furthermore, if the angle between the first locking piece 12 and the axis of the locking lever 14 and/or the angle between the second locking piece 13 and the axis of the locking lever 14 are controlled to change, the movement needs to overcome the elastic force of the first spring 153 and/or the second spring 154, and after the control is cancelled, the first spring 153 and the second spring 154 automatically return under the action of the self elastic force, and simultaneously the first locking piece 12 and the second locking piece 13 are driven to return, so that the locking assembly 10 can automatically return to the locking state. It can be seen that the provision of the first spring 153 and the second spring 154 facilitates the locking function of the locking assembly 10 and provides greater reliability.

Further, referring to fig. 1, the locking assembly 10 further includes a control mechanism 15, and the control mechanism 15 is configured to control an angle between the first locking piece 12 and an axis of the locking rod 14 and an angle between the second locking piece 13 and an axis of the locking rod 14, so as to switch the locking state or the unlocking state of the locking assembly 10.

For example, referring to FIG. 2, the control mechanism 15 may include a sleeve 151 and a brake cable 152. The brake cable 152 is slidably disposed through the sleeve 151 relative to the sleeve 151, a first end of the brake cable 152 is connected to a second end of the first locking piece 12, and a first end of the sleeve 151 is abutted against a side of the second locking piece 13 away from the first locking piece 12. When no external force acts: under the action of the elastic force of the first spring 153, an acute angle is formed between the first locking piece 12 and the axis of the locking rod 14, and the hole wall of the first locking hole 121 is tightly abutted to the locking rod 14; under the action of the second spring 154, the second locking piece 13 forms an acute angle with the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, it can be understood that the locking assembly 10 is in the locking state under the action of the first spring 153 and the second spring 154. When the second end of the brake cable 152 is pulled to move towards the side far away from the fixed seat 11, the first end of the brake cable 152 and the first end of the sleeve 151 approach each other, and at the same time, the second end of the first locking piece 12 is driven to move towards the side near the second locking piece 13 against the elastic force of the first spring 153, and the second end of the second locking piece 13 moves towards the side near the first locking piece 12 against the elastic force of the second spring 154, until a gap appears between the hole wall of the first locking hole 121 and the locking rod 14, and a gap appears between the hole wall of the second locking hole 131 and the locking rod 14, the locking assembly 10 is in an unlocking state, and at this time, the locking rod 14 can freely slide relative to the fixed seat 11, and the relative position of the locking rod 14 and the fixed seat 11 can be arbitrarily adjusted; when the relative position of the locking rod 14 and the fixing seat 11 is determined, the second end of the brake cable 152 is released, the first spring 153 and the second spring 154 automatically reset, and the first locking piece 12 and the second locking piece 13 are also reset, that is, the locking assembly 10 is restored to the locking state, and the locking rod 14 is fixed. It can be seen that the control mechanism 15 provided in the embodiment of the present application is used to switch the locking state or the unlocking state of the locking assembly 10, and the operation is convenient and fast.

In some embodiments of the present application, as shown in fig. 2, the control mechanism 15 may further include a control handle 155 connected to the second end of the brake cable 152, so that the brake cable 152 can be pulled and released by the control handle 155, thereby improving the operation comfort.

Referring to fig. 1-6, embodiments of the second aspect of the present application provide a lift table that includes a table top 20, a cross bar assembly 30 disposed at the bottom of the table top 20, and a locking assembly 10 provided in accordance with embodiments of the first aspect of the present application. Wherein, the fixed seat 11 of the locking assembly 10 is fixedly connected with the table top 20, and one end of the locking rod 14 of the locking assembly 10 is connected with the cross bar assembly 30.

According to the embodiment of the second aspect of the present application, there is provided an elevator platform, which comprises a platform 20, a cross bar assembly 30 and a locking assembly 10, wherein the cross bar assembly 30 and the locking assembly 10 are both disposed at the bottom of the platform 20, a fixed base 11 of the locking assembly 10 is fixedly connected with the platform 20, a locking rod 14 of the locking assembly 10 is slidably connected with the fixed base 11, and a first end of the locking rod 14 is connected with the cross bar assembly 30. According to the locking assembly 10 provided by the embodiment of the first aspect of the present application, the locking state and the unlocking state can be switched mutually, so that the lifting platform provided by the embodiment of the second aspect of the present application can lock or unlock the cross bar assembly 30 connected with the locking assembly 10 by switching the locking state or the unlocking state of the locking assembly 10, thereby realizing the adjustment of the height of the table top 20 connected with the cross bar assembly 30. For example, when the height of the table top 20 needs to be adjusted, the first locking piece 12 and the axis of the locking rod 14 are controlled to form a third angle larger than the first angle, a gap is formed between the hole wall of the first locking hole 121 and the locking rod 14, the second locking piece 13 and the axis of the locking rod 14 form a fourth angle larger than the second angle, and a gap is formed between the hole wall of the second locking hole 131 and the locking rod 14, so that the locking assembly 10 is in the unlocked state, in this case, the hole wall of the first locking hole 121 and the hole wall of the second locking hole 131 have no friction with the locking rod 14, the locking rod 14 can freely pass through the first locking hole 121 and the second locking hole 131, that is, the locking rod 14 can freely slide relative to the fixed base 11 fixed at the bottom of the table top 20, and it can be understood that the crossing angle of the cross rod assembly 30 connected to the locking rod 14 can be arbitrarily changed, and further, the height of the table top 20 connected to the cross rod assembly 30 can be adjusted to any position; after the height of the table top 20 is determined, the first angle is formed between the first locking piece 12 and the axis of the locking rod 14, the hole wall of the first locking hole 121 is tightly abutted against the locking rod 14, the second angle is formed between the second locking piece 13 and the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, so that the locking assembly 10 is in the locking state, in this case, because the first locking piece 12 and the second locking piece 13 are respectively arranged at two ends of the fixed base 11, it can be understood that under the friction action between the hole wall of the first locking hole 121 and the locking rod 14 and the friction action between the hole wall of the second locking hole 131 and the locking rod 14, the locking rod 14 is locked in both sliding directions relative to the fixed base 11 fixed at the bottom of the table top 20, so that the crossing angle of the cross bar assembly 30 connected with the locking rod 14 is also locked, and further, the height of the table top 20 connected with the cross bar assembly 30 is locked. Therefore, the lifting platform provided by the embodiment of the second aspect of the application can be used for locking the height of the platform surface 20 at any position, namely stepless adjustment of the height of the platform surface 20 can be realized, the cost is effectively saved compared with the lifting platform adopting a gas spring, and the application has higher technical value and economic value.

In some embodiments of the present application, as shown in fig. 2 and 6, the locking assembly 10 further includes a first spring 153 and a second spring 154, a first end of the first spring 153 abuts against the fixed seat 11, and a second end of the first spring 153 abuts against the first locking piece 12; a first end of the second spring 154 abuts against the fixed seat 11, and a second end of the second spring 154 abuts against the second locking piece 13. When no external force acts: under the action of the elastic force of the first spring 153, a first angle can be always kept between the first locking piece 12 and the axis of the locking rod 14, and the hole wall of the first locking hole 121 is tightly abutted to the locking rod 14; similarly, under the action of the elastic force of the second spring 154, the second angle can be always kept between the second locking piece 13 and the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, which can be understood that under the action of the first spring 153 and the second spring 154, the locking assembly 10 can be always kept in the locking state; furthermore, if the angle between the first locking piece 12 and the axis of the locking lever 14 and/or the angle between the second locking piece 13 and the axis of the locking lever 14 are controlled to change, the movement needs to overcome the elastic force of the first spring 153 and/or the second spring 154, and after the control is cancelled, the first spring 153 and the second spring 154 automatically return under the action of the self elastic force, and simultaneously the first locking piece 12 and the second locking piece 13 are driven to return, so that the locking assembly 10 can automatically return to the locking state. It can be seen that the provision of the first spring 153 and the second spring 154 facilitates the locking function of the locking assembly 10 and provides greater reliability.

Further, the locking assembly 10 may further include a control mechanism 15, and the control mechanism 15 is configured to control an angle between the first locking piece 12 and an axis of the locking rod 14 and an angle between the second locking piece 13 and the axis of the locking rod 14, so as to switch the locking state or the unlocking state of the locking assembly 10.

For example, the control mechanism 15 may include a sleeve 151, a brake wire 152, a first spring 153, and a second spring 154. The brake cable 152 is disposed through the sleeve 151 in a manner of sliding relative to the sleeve 151, a first end of the brake cable 152 is connected to a second end of the first locking tab 12, the first end of the sleeve 151 is abutted against a side of the second locking tab 13 away from the first locking tab 12, the first spring 153 is disposed between the first locking tab 12 and the fixing seat 11, and the second spring 154 is disposed between the second locking tab 13 and the fixing seat 11. When no external force acts: under the action of the elastic force of the first spring 153, an acute angle is formed between the first locking piece 12 and the axis of the locking rod 14, and the hole wall of the first locking hole 121 is tightly abutted to the locking rod 14; under the action of the second spring 154, the second locking piece 13 forms an acute angle with the axis of the locking rod 14, and the hole wall of the second locking hole 131 is tightly abutted against the locking rod 14, it can be understood that the locking assembly 10 is in the locking state under the action of the first spring 153 and the second spring 154. When the second end of the brake cable 152 is pulled to move towards the side far away from the fixed seat 11, the first end of the brake cable 152 and the first end of the sleeve 151 approach each other, and at the same time, the second end of the first locking piece 12 is driven to move towards the side close to the second locking piece 13 against the elastic force of the first spring 153, and the second end of the second locking piece 13 moves towards the side close to the first locking piece 12 against the elastic force of the second spring 154, until a gap appears between the hole wall of the first locking hole 121 and the locking rod 14, and a gap appears between the hole wall of the second locking hole 131 and the locking rod 14, the locking assembly 10 is in an unlocking state, and at this time, the locking rod 14 can freely slide relative to the fixed seat 11, so that the relative position of the locking rod 14 and the fixed seat 11 can be arbitrarily adjusted; when the relative position of the locking rod 14 and the fixing seat 11 is determined, the second end of the brake cable 152 is released, the first spring 153 and the second spring 154 automatically return, and at the same time, the first locking piece 12 and the second locking piece 13 are driven to return, i.e. the locking assembly 10 returns to the locking state, and the locking rod 14 is fixed. It can be seen that the control mechanism 15 provided in the embodiment of the present application is used to switch the locking state or the unlocking state of the locking assembly 10, and the operation is convenient and fast.

In some embodiments of the present application, the control mechanism 15 may further include a control handle 155 connected to the second end of the brake cable 152, so that the brake cable 152 can be pulled and released by the control handle 155, thereby improving the operation comfort.

For example, the control handle 155 can include a mount 501, a connector 502, a turn piece 503, and a handle body 504. The mounting seat 501 is fixed at the bottom of the table top 20, the connecting member 502 is connected to the mounting seat 501, the rotating member 503 is rotatably sleeved on the connecting member 502, a first end of the rotating member 503 is connected to the handle body 504, and a second end of the rotating member 503 is connected to the second end of the brake cable 152. Referring to fig. 1 and 2, when the handle body 504 is pushed to move toward the side close to the fixed seat 11, the second end of the rotating member 503 drives the second end of the brake cable 152 to move toward the side away from the fixed seat 11, so that the first end of the brake cable 152 and the first end of the sleeve 151 approach each other, and further drives the second end of the first locking piece 12 to move toward the side close to the second locking piece 13 against the elastic force of the first spring 153, and the second end of the second locking piece 13 to move toward the side close to the first locking piece 12 against the elastic force of the second spring 154, so that a gap is formed between the hole wall of the first locking hole 121 and the locking rod 14, and a gap is formed between the hole wall of the second locking hole 131 and the locking rod 14, thereby switching the locking assembly 10 to the unlocking state. According to the control handle 155 provided by the embodiment of the application, the pushing force applied to the handle body 504 by the user can be converted into the pulling force applied to the brake cable 152, and the brake cable 152 always keeps linear motion, so that the phenomena of jamming and the like caused by friction between the brake cable 152 and the sleeve 151 due to unstable angle of pulling the brake cable 152 and the like in the process of pulling the brake cable are avoided, and the operation comfort and the convenience are further improved.

In some embodiments of the present application, the cross bar assembly 30 includes a first support bar 31 and a second support bar 32, a middle portion of the first support bar 31 is hinged to a middle portion of the second support bar 32, a first end of the first support bar 31 is hinged to the bottom of the table top 20, and a first end of the locking bar 14 is connected to a first end of the second support bar 32; the lifting platform may further comprise a third spring 40, a first end of the third spring 40 is close to the first end of the first support rod 31 and fixed at the bottom of the table top 20, and a second end of the third spring 40 is connected with the first end of the second support rod 32.

Referring to fig. 4, the first supporting rod 31 and the second supporting rod 32 intersect in an X shape, and the middle portion of the first supporting rod 31 and the middle portion of the second supporting rod 32 are hinged, that is, the first supporting rod 31 and the second supporting rod 32 can rotate with each other to change the angle of intersection between the two rods, and because the first end of the first supporting rod 31 is hinged to the bottom of the table top 20, in practice, the first end of the second supporting rod 32 is moved to change the angle of intersection between the first supporting rod 31 and the second supporting rod 32, so that the first end of the locking rod 14 is connected to the first end of the second supporting rod 32, and when the locking rod 14 can slide relative to the fixing base 11 fixed at the bottom of the table top 20, the first end of the second supporting rod 32 can also move relative to the bottom of the table top 20 to follow the first end of the locking rod 14, thereby changing the angle of intersection between the first supporting rod 31 and the second supporting rod 32, so that the height of the table top 20 can be adjusted; when the locking bar 14 is locked in both sliding directions relative to the fixed base 11 fixed to the bottom of the table top 20, the position of the first end of the second support bar 32 is also locked, i.e. the crossing angle between the first support bar 31 and the second support bar 32 is locked, so that the height of the table top 20 is locked. Moreover, since the third spring 40 is disposed at the bottom of the table top 20, it can be understood that the first end of the second support rod 32 moves to the side away from the first end of the first support rod 31, the third spring 40 will generate a pulling force opposite to the moving direction of the first end of the second support rod 32, after the locking rod 14 is locked, the position of the first end of the second support rod 32 is also locked, at this time, the pulling force of the third spring 40 on the first end of the second support rod 32 can be regarded as a pre-tightening force to resist the influence of the external force on the second support rod 32, for example, when a pressure is applied on the table top 20, the first end of the second support rod 32 tends to move to the side away from the first end of the first support rod 31, at this time, the first end of the second support rod 32 can be more reliably fixed at the locked position by using the pulling force of the third spring 40 on the first end of the second support rod 32, thereby preventing the support rod assembly 30 from being easily loosened when the external force acts, and reducing the height of the table top 20, and improving the overall structural stability of the lifting table top.

Further, the bottom of the table top 20 may be further provided with a slide rail groove 60, and the first end of the second support rod 32 is slidably and rotatably limited inside the slide rail groove 60, so that the first end of the second support rod 32 can be more smoothly moved, thereby improving the lifting stability of the table top 20.

In some embodiments of the present application, referring to fig. 4, the cross bar assembly 30 comprises a first support bar 31, a second support bar 32, and a connecting bar 33, wherein a middle portion of the first support bar 31 is hinged to a middle portion of the second support bar 32, a first end of the first support bar 31 is hinged to the bottom of the table top 20, the connecting bar 33 is connected to a first end of the second support bar 32, and a first end of the locking bar 14 is connected to the connecting bar 33; the lifting platform further comprises a third spring 40, a first end of the third spring 40 is close to the first end of the first supporting rod 31 and fixed at the bottom of the table top 20, and a second end of the third spring 40 is connected with the connecting rod 33. The locking rod 14 is connected to the connecting rod 33, and it can be understood that the locking rod 14 drives the connecting rod 33 to move, and then drives the first end of the second supporting rod 32 to move, so as to change the crossing angle between the first supporting rod 31 and the second supporting rod 32, and adjust the height of the table top 20; when the locking rod 14 is locked in both sliding directions relative to the fixed base 11 fixed to the bottom of the table top 20, the position of the connecting rod 33 is also locked, that is, the position of the first end of the second supporting rod 32 is locked, so that the crossing angle between the first supporting rod 31 and the second supporting rod 32 is locked to fix the height of the table top 20. It can be understood that the third spring 40 is disposed at the bottom of the table top 20, and the third spring 40 is connected to the connecting rod 33, the connecting rod 33 moves to drive the third spring 40 to stretch, the third spring 40 can generate a pulling force opposite to the moving direction of the connecting rod 33, after the locking rod 14 is locked, the position of the connecting rod 33 is also locked, and at this time, the pulling force of the third spring 40 on the connecting rod 33 can be regarded as a pre-tightening force to resist the influence of the external force on the second supporting rod 32, so that the phenomenon that the supporting rod assembly 30 is easily loosened when the external force acts on the supporting rod assembly 30 to cause the height of the table top 20 to decrease, thereby improving the overall structural stability of the lifting table.

Further, as shown in fig. 4 and 5, the bottom of the table top 20 may be further provided with a slide rail groove 60, the first end of the second support rod 32 is rotatably connected with the connecting rod 33, and the connecting rod 33 is slidably limited inside the slide rail groove 60, so that the first end of the second support rod 32 can be more smoothly moved, thereby improving the lifting stability of the table top 20.

In some embodiments of the present application, shown with reference to fig. 6, locking rod 14 includes a lockable rod segment 141 and a non-lockable rod segment 142, the diameter of non-lockable rod segment 142 being smaller than the diameter of lockable rod segment 141; wherein the locking assembly 10 is switchable between the locked state and the unlocked state when the first locking hole 121 of the first locking tab 12 of the locking assembly 10 and the second locking hole 131 of the second locking tab 13 of the locking assembly 10 are both in the lockable rod segment 141; when the first lock hole 121 is located in the lockable rod segment 142, a gap is always formed between the wall of the first lock hole 121 and the lock rod 14; when the second lock hole 131 is in the lockable rod section 142, there is always a gap between the hole wall of the second lock hole 131 and the locking rod 14.

That is, when the first lock hole 121 of the first lock plate 12 of the lock assembly 10 and the second lock hole 131 of the second lock plate 13 of the lock assembly 10 are both in the lockable rod segment 141, the lock assembly 10 has a lock state and an unlock state that are switchable with each other: when the locking assembly 10 is in the locking state, a first angle is formed between the first locking piece 12 and the axis of the lockable rod section 141, the hole wall of the first locking hole 121 is tightly abutted against the lockable rod section 141, a second angle is formed between the second locking piece 13 and the axis of the lockable rod section 141, and the hole wall of the second locking hole 131 is tightly abutted against the lockable rod section 141; when the locking assembly 10 is in the unlocked state, a third angle larger than the first angle is formed between the first locking piece 12 and the axis of the lockable rod section 141, a gap is formed between the hole wall of the first locking hole 121 and the lockable rod section 141, a fourth angle larger than the second angle is formed between the second locking piece 13 and the axis of the lockable rod section 141, and a gap is formed between the hole wall of the second locking hole 131 and the lockable rod section 141.

It can be understood that when the first locking hole 121 is located at the lockable rod segment 142, there is always a gap between the wall of the first locking hole 121 and the locking rod 14, in this case, the wall of the first locking hole 121 has no friction with the locking rod 14, and the locking action of the second locking piece 13 on the locking rod 14 in the first sliding direction relative to the fixing base 11 is small, so that the locking rod 14 cannot be locked in the first sliding direction relative to the fixing base 11, which can be understood as the direction in which the first end of the locking rod 14 moves to the side away from the first end of the fixing base 11; when the second lock hole 131 is located at the lockable rod segment 142, there is always a gap between the hole wall of the second lock hole 131 and the locking rod 14, in this case, the hole wall of the second lock hole 131 has no friction effect with the locking rod 14, and the locking effect of the first lock tab 12 on the locking rod 14 in the second sliding direction relative to the fixing base 11 is small, so that the locking rod 14 cannot be locked in the second sliding direction relative to the fixing base 11, which can be understood as the direction in which the second end of the locking rod 14 moves to the side away from the second end of the fixing base 11.

By providing lockable and non-lockable segments 141 and 142 on locking lever 14, locking of particular positions of portions of locking lever 14 may be eliminated, making locking assembly 10 more adaptable to practical needs. For example, in practical applications, since the table top 20 is locked at a lower position, the lifting table is unstable and the structural stability of the components of the lifting table is easily damaged, so that for protecting the components of the lifting table, the portion where the locking rod 14 is engaged with the first locking piece 12 or the second locking piece 13 when the table top 20 is at an unreasonable height position can be processed into the non-lockable rod section 142, that is, the diameter of the portion is reduced, so that a gap is still formed between the hole wall of the first locking hole 121 or the second locking hole 131 and the non-lockable rod section 142 even if the first locking piece 12 and the axis of the non-lockable rod section 142 form a first angle or a second angle between the second locking piece 13 and the axis of the non-lockable rod section 142, and thus the non-lockable rod section 142 of the locking rod 14 cannot be locked by the first locking piece 12 or the second locking piece 13, and the table top 20 cannot be locked at an unreasonable height position.

In some embodiments of the present application, as shown with reference to fig. 4, the lifting table may further include an elastic member 70 disposed at the bottom of the table top 20, and the elastic member 70 is configured to contact the first support bar 31 and/or the second support bar 32 when the table top 20 is in the lower position. For example, the elastic member 70 may be an arc-shaped elastic sheet, when the first end of the second support bar 32 moves to a side away from the first end of the first support bar 31 until the table top 20 descends to the lowest position, the crossing angle between the first support bar 31 and the second support bar 32 approaches or reaches the maximum, and at this time, the elastic member 70 may abut against the first support bar 31 and/or the second support bar 32, so as to provide an elastic force for retracting the crossing angle to the support bar assembly 30, and further provide an upward supporting force to the table top 20, so as to prevent the table top 20 from suddenly falling down to the lowest position to affect the user experience.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The embodiments of the present application are described in a related manner, and the same and similar parts among the embodiments can be referred to each other, and each embodiment focuses on differences from other embodiments.

The above description is only for the preferred embodiment of the present application and is not intended to limit the scope of the present application. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application are included in the scope of protection of the present application.

Claims (10)

1. A locking assembly, comprising:

a fixed seat;

the first end of the first locking piece is connected to the first end of the fixed seat in a rotatable mode, and a first locking hole is formed in the first locking piece;

the first end of the second locking piece is connected to the second end of the fixed seat in a rotatable mode, and a second locking hole is formed in the second locking piece;

the locking rod is connected with the fixed seat in a sliding mode and penetrates through the first locking hole and the second locking hole;

wherein the locking assembly has a locking state and an unlocking state which can be switched with each other;

when the locking assembly is in the locking state, a first angle is formed between the first locking piece and the axis of the locking rod, the hole wall of the first locking hole is tightly abutted against the locking rod, a second angle is formed between the second locking piece and the axis of the locking rod, and the hole wall of the second locking hole is tightly abutted against the locking rod;

when the locking assembly is in the unlocking state, a gap is formed between the first locking piece and the axis of the locking rod, the third angle is larger than the first angle, a gap is formed between the hole wall of the first locking hole and the locking rod, a gap is formed between the second locking piece and the axis of the locking rod, the fourth angle is larger than the second angle, and a gap is formed between the hole wall of the second locking hole and the locking rod.

2. The locking assembly of claim 1, further comprising a first spring and a second spring, a first end of the first spring abutting the anchor block and a second end of the first spring abutting the first locking tab; the first end of the second spring is abutted against the fixed seat, and the second end of the second spring is abutted against the second locking piece.

3. The locking assembly of claim 2, further comprising a control mechanism configured to control an angle between the first locking tab and an axis of the locking rod and an angle between the second locking tab and the axis of the locking rod.

4. The locking assembly of claim 3, wherein the control mechanism includes a sleeve and a brake cable slidably disposed through the sleeve, a first end of the brake cable being coupled to a second end of the first locking tab, the first end of the sleeve abutting a side of the second locking tab facing away from the first locking tab.

5. An elevator table comprising a table top, a cross bar assembly disposed at the bottom of the table top, and a locking assembly according to any one of claims 1 to 4; the fixing seat of the locking assembly is fixedly connected with the table top, and the first end of the locking rod of the locking assembly is connected with the cross rod assembly.

6. The lift table of claim 5, wherein the locking assembly further comprises a first spring and a second spring, a first end of the first spring abutting the fixed seat and a second end of the first spring abutting the first locking tab; the first end of the second spring is abutted against the fixed seat, and the second end of the second spring is abutted against the second locking piece;

the locking assembly further comprises a control mechanism, the control mechanism comprises a sleeve and a brake cable, the brake cable penetrates through the sleeve in a sliding mode relative to the sleeve, a first end of the brake cable is connected with a second end of a first locking piece of the locking assembly, and a first end of the sleeve is abutted against one side, away from the first locking piece, of a second locking piece of the locking assembly; control mechanism still include with the control handle that the second end of floodgate line is connected, control handle includes mount pad, connecting piece, rotates piece and handle body, the mount pad is fixed the bottom of mesa, the connecting piece with the mount pad is connected, rotate and locate with rotatable mode cover the connecting piece, the first end that rotates the piece with this body coupling of handle, the second end that rotates the piece with the floodgate line the second end is connected.

7. The lift table of claim 5, wherein the cross bar assembly comprises a first support bar and a second support bar, a middle portion of the first support bar and a middle portion of the second support bar are hinged, a first end of the first support bar is hinged to a bottom of the table top, and the first end of the locking bar is connected to a first end of the second support bar; the lifting platform further comprises a third spring, the first end of the third spring is close to the first end of the first supporting rod and is fixed at the bottom of the table board, and the second end of the third spring is connected with the first end of the second supporting rod.

8. The lift table of claim 5, wherein said cross bar assembly comprises a first support bar, a second support bar, and a connecting bar, wherein a middle portion of said first support bar and a middle portion of said second support bar are hingedly connected, a first end of said first support bar is hingedly connected to a bottom portion of said table top, said connecting bar is connected to a first end of said second support bar, and said first end of said locking bar is connected to said connecting bar; the lifting platform further comprises a third spring, the first end of the third spring is close to the first end of the first supporting rod and is fixed to the bottom of the table top, and the second end of the third spring is connected with the connecting rod.

9. The lift table of claim 5, wherein the locking bar comprises a lockable bar segment and a non-lockable bar segment, the non-lockable bar segment having a diameter less than a diameter of the lockable bar segment;

wherein the locking assembly is switchable between the locked state and the unlocked state when both the first locking hole of the first locking tab of the locking assembly and the second locking hole of the second locking tab of the locking assembly are in the lockable rod segment; when the first lock hole is positioned in the lockable rod section, a gap is always reserved between the hole wall of the first lock hole and the lock rod; when the second lock hole is positioned in the lockable rod section, a gap is always reserved between the hole wall of the second lock hole and the locking rod.

10. The lift table of claim 5, further comprising a resilient member disposed at a bottom of the table top, the resilient member configured to contact the first support bar and/or the second support bar with the table top in a lowermost position.

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