CN221806210U - Intelligent switch cabinet double-position travel switch structure - Google Patents

Abstract

The utility model relates to the technical field of intelligent switch cabinets, in particular to a double-position travel switch structure of an intelligent switch cabinet; the device comprises a base, wherein a pair of first control sliding blocks are connected in the base in a sliding way, and a first movement mechanism matched with the first control sliding blocks is arranged in the base; the first control slide block is connected with a stress block matched with the base in a sliding way; a first control mechanism matched with the stress block is arranged in the first control slide block; the base is provided with a chute matched with the stress block; the problem that a control position cannot be adjusted and the control position cannot be accurately regulated by the two-position travel switch for the intelligent switch cabinet in the prior art is effectively solved; the requirement of the intelligent switch cabinet on the two-position travel switch is greatly met.

Description

Intelligent switch cabinet double-position travel switch structure

Technical Field

The utility model relates to the technical field of intelligent switch cabinets, in particular to a double-position travel switch structure of an intelligent switch cabinet.

Background

The switch cabinet is usually operated by a cabinet door, and the cabinet door needs to confirm the position by a travel switch; in the prior art, intelligent switch cabinets often adopt a two-position travel switch to control cabinet doors; in the prior art, the two-position travel switch is often directly arranged on the base and cannot be adjusted in position; thus failing to meet various requirements of the intelligent switch cabinet in the prior art; on the other hand, the two-position travel switch in the prior art is often triggered by a signal; accurate regulation and control cannot be performed, so that the regulation and control cannot be performed; there is a need for a two-position travel switch structure for intelligent switch cabinets that addresses the current problems.

Disclosure of utility model

In order to solve the problems, the utility model provides a double-position travel switch structure of an intelligent switch cabinet, which effectively solves the problems that a double-position travel switch for the intelligent switch cabinet in the prior art cannot adjust the control position and cannot accurately adjust and control the control position; the requirement of the intelligent switch cabinet on the two-position travel switch is greatly met.

In order to achieve the above purpose, the present utility model proposes the following technical scheme: the intelligent switch cabinet double-position travel switch structure comprises a base, wherein a pair of first control sliding blocks are connected in the base in a sliding manner, and a first movement mechanism matched with the first control sliding blocks is arranged in the base; the first control slide block is connected with a stress block matched with the base in a sliding way; a first control mechanism matched with the stress block is arranged in the first control slide block; the base is provided with a chute matched with the stress block.

Further: the first movement mechanism comprises a pair of first control gears which are rotationally connected in the base, and the first control gears are meshed with each other; the first control gears are coaxially and fixedly connected with first control studs, and the first control studs are in threaded connection with the first control sliding blocks.

Further: the screw connection positions of the first control stud and the first control slide block are symmetrically arranged on two sides of the first control slide block.

Further: the first control stud is a double-thread screw, and the first control sliding blocks are respectively positioned on threads in different directions; the first control stud rotates to drive the first control slide block to slide in the opposite direction.

Further: the first control mechanism comprises a movable fixed plate which is connected in a sliding way in the first control sliding block, and a stress block is fixedly connected with the upper part of the movable fixed plate; a movable signal column is fixedly connected below the movable fixed plate; the movable signal column is sleeved with a reset spring, and one end of the reset spring is fixedly connected with the movable fixed plate; the other end of the reset spring is fixedly connected with the first control slide block.

Further: the bottom of the first control slide block is provided with a chute matched with the movable signal column; the first control slide block is level with the bottom of the movable signal column.

Further: a control groove matched with the movable signal column is arranged in the base.

Further: the upper surface of the stress block is a convex block, and the highest travel positions of the two sides above the stress block are level with the base.

Further: a sliding groove matched with the cabinet door is arranged above the base.

Compared with the prior art, the gain effect of the utility model is as follows:

The utility model has ingenious conception and comprehensive functions, the first movement mechanism is arranged to realize the position adjustment of the first control slide block, and the stability during adjustment is ensured; the first control mechanism is arranged to effectively realize accurate regulation and control of the cabinet door; the requirement of the intelligent switch cabinet on the two-position travel switch is greatly met.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is an internal perspective view of the present utility model.

Fig. 3 is a partial cutaway view of the present utility model.

Fig. 4 is a partial perspective view of the present utility model.

Fig. 5 is a cut-away view of a first control mechanism of the present utility model.

In the figure: 1. a base, 2, a first control gear, 3, a first control stud, 4 and a first control slide block, 5, a stress block, 6, a movable fixed plate, 7, a movable signal column, 8 and a return spring.

Detailed Description

The intelligent switch cabinet double-position travel switch structure comprises a base 1, wherein a pair of first control sliding blocks 4 are connected in a sliding manner in the base 1, and a first movement mechanism matched with the first control sliding blocks 4 is arranged in the base 1; the first control slide block 4 is connected with a stress block 5 matched with the base 1 in a sliding way; a first control mechanism matched with the stress block 5 is arranged in the first control slide block 4; the base 1 is provided with a chute matched with the stress block 5.

As shown in fig. 1, 2 and 3: the staff can realize the adjustment of the position of the first control slide block 4 through the motor and the first movement mechanism; after the first control sliding block 4 and the stress block 5 are adjusted to proper positions, the motion of the cabinet door can trigger the first control mechanism through the stress block 5; when the contact position of the cabinet door and the stress block 5 is continuously changed, the change of the contact position of the movable signal column 7 and the control groove can be regulated; thereby controlling the intensity of the electric signal; the speed of the cabinet door is adjusted; thereby realizing the accurate regulation and control of the cabinet door; the problem that a control position cannot be adjusted and the control position cannot be accurately regulated by the two-position travel switch for the intelligent switch cabinet in the prior art is effectively solved; the requirement of the intelligent switch cabinet on the two-position travel switch is greatly met.

The first movement mechanism comprises a pair of first control gears 2 which are rotationally connected with the base 1, and the first control gears 2 are meshed with each other; the first control gears 2 are coaxially and fixedly connected with first control studs 3, and the first control studs 3 are in threaded connection with a first control slide block 4; the screw connection position of the first control stud 3 and the first control slide block 4 is symmetrically arranged at two sides of the first control slide block 4; the first control stud 3 is a double-thread screw, and the first control sliding blocks 4 are respectively positioned on threads in different directions; the first control stud 3 rotates to drive the first control slide block 4 to slide in the opposite direction.

As shown in fig. 2 and 4: when the motor drives the first control gear 2 to rotate, the first control gear 2 rotates and can drive the first control slide block 4 and the stress block 5 to slide through the first control stud 3, so that the forming position is adjusted; the arrangement of two first control studs 3 ensures stability during movement.

The first control mechanism comprises a movable fixed plate 6 which is in sliding connection with the first control slide block 4, and a stress block 5 is fixedly connected with the upper part of the movable fixed plate 6; a movable signal column 7 is fixedly connected below the movable fixed plate 6; the movable signal column 7 is sleeved with a reset spring 8, and one end of the reset spring 8 is fixedly connected with the movable fixed plate 6; the other end of the reset spring 8 is fixedly connected with the first control slide block 4; the bottom of the first control slide block 4 is provided with a chute matched with the movable signal column 7; the first control slide block 4 is level with the bottom of the movable signal column 7; a control groove matched with the movable signal column 7 is arranged in the base 1; the upper surface of the stress block 5 is a convex block, and the highest stroke positions of the two sides above the stress block 5 are level with the base 1; a chute matched with the cabinet door is arranged above the base 1.

As shown in fig. 3, 4 and 5: when the cabinet door is matched with the gradual stress block 5; the stress block 5 can drive the movable fixed plate 6 and the movable signal column 7 to slide downwards; the movable signal column 7 is matched with the control groove to deepen gradually; thereby realizing the change of the electric signal; after the cabinet door is matched and separated with the stress block 5, the stress block 5 and the movable fixing plate 6 can be reset under the action of the reset spring 8; thereby releasing the electrical signal; the arrangement of the convex block on the upper surface of the stress block 5 ensures the integrity of the function of the first control mechanism.

The working process of the utility model is as follows:

As shown in fig. 1, 2, 3 and 5: the staff can realize the adjustment of the position of the first control slide block 4 through the motor and the first movement mechanism; when the motor drives the first control gear 2 to rotate, the first control gear 2 rotates and can drive the first control slide block 4 and the stress block 5 to slide through the first control stud 3, so that the forming position is adjusted; the arrangement of the two first control studs 3 ensures stability during movement; after the first control sliding block 4 and the stress block 5 are adjusted to proper positions, the motion of the cabinet door can trigger the first control mechanism through the stress block 5; when the contact position of the cabinet door and the stress block 5 is continuously changed, the change of the contact position of the movable signal column 7 and the control groove can be regulated; thereby controlling the intensity of the electric signal; the speed of the cabinet door is adjusted; thereby realizing the accurate regulation and control of the cabinet door; when the cabinet door is matched with the gradual stress block 5; the stress block 5 can drive the movable fixed plate 6 and the movable signal column 7 to slide downwards; the movable signal column 7 is matched with the control groove to deepen gradually; thereby realizing the change of the electric signal; after the cabinet door is matched and separated with the stress block 5, the stress block 5 and the movable fixing plate 6 can be reset under the action of the reset spring 8; thereby releasing the electrical signal; the arrangement of the convex block on the upper surface of the stress block 5 ensures the integrity of the function of the first control mechanism; the problem that a control position cannot be adjusted and the control position cannot be accurately regulated by the two-position travel switch for the intelligent switch cabinet in the prior art is effectively solved; the requirement of the intelligent switch cabinet on the two-position travel switch is greatly met.

Claims (9)

1. A dual-position travel switch structure of an intelligent switch cabinet, characterized in that: it comprises a base (1), a pair of first control sliders (4) are slidably connected in the base (1), a first motion mechanism matched with the first control sliders (4) is arranged in the base (1); a force block (5) matched with the base (1) is slidably connected to the first control slider (4); a first control mechanism matched with the force block (5) is arranged in the first control slider (4); and a slide groove matched with the force block (5) is arranged on the base (1). 2. The dual-position travel switch structure of the intelligent switch cabinet according to claim 1 is characterized in that: the first motion mechanism comprises a pair of first control gears (2) rotatably connected in the base (1), and the first control gears (2) are meshed with each other; the first control gears (2) are coaxially fixed with first control studs (3), and the first control studs (3) are screwed with the first control slider (4). 3. The dual-position travel switch structure of the intelligent switch cabinet according to claim 2 is characterized in that: the screw connection positions of the first control stud (3) and the first control slider (4) are symmetrically arranged on both sides of the first control slider (4). 4. The dual-position travel switch structure of the intelligent switch cabinet according to claim 2 is characterized in that: the first control stud (3) is a double-thread screw, and the first control slider (4) is located on threads in different directions respectively; the rotation of the first control stud (3) can drive the first control slider (4) to slide in the opposite direction. 5. The dual-position travel switch structure of the intelligent switch cabinet according to claim 1 is characterized in that: the first control mechanism comprises a movable fixed plate (6) slidably connected inside the first control slider (4), the force block (5) is fixedly connected to the upper part of the movable fixed plate (6); a movable signal column (7) is fixedly connected to the lower part of the movable fixed plate (6); a return spring (8) is connected to the outer shell of the movable signal column (7), one end of the return spring (8) is fixedly connected to the movable fixed plate (6); the other end of the return spring (8) is fixedly connected to the first control slider (4). 6. The dual-position travel switch structure of the intelligent switch cabinet according to claim 5 is characterized in that: a slide groove matching with the movable signal column (7) is provided at the bottom of the first control slide block (4); the first control slide block (4) is flush with the bottom of the movable signal column (7). 7. The dual-position travel switch structure of the intelligent switch cabinet according to claim 5 is characterized in that a control groove matching with the movable signal column (7) is arranged in the base (1). 8. The dual-position travel switch structure of the intelligent switch cabinet according to claim 1 is characterized in that the upper surface of the force-bearing block (5) is a convex block, and the highest travel positions on both sides above the force-bearing block (5) are flush with the base (1). 9. The dual-position travel switch structure of the intelligent switch cabinet according to claim 1, characterized in that a slide groove matching with the cabinet door is arranged above the base (1).