CN108149757B

CN108149757B - Double-rotation type platform control

Info

Publication number: CN108149757B
Application number: CN201711424000.4A
Authority: CN
Inventors: 徐剑光; 谢国芳; 周平安
Original assignee: Ningbo Oulin Technology Co ltd
Current assignee: Ningbo Oulin Industrial Co ltd
Priority date: 2017-12-25
Filing date: 2017-12-25
Publication date: 2023-10-17
Anticipated expiration: 2037-12-25
Also published as: CN108149757A

Abstract

The invention provides a double-rotation type bench control, which comprises the following steps: the two knob assemblies which are mutually overlapped up and down and are operated independently are respectively a first knob assembly and a second knob assembly, wherein one ends of the first knob assembly and the second knob assembly are respectively connected with a zipper, the other ends of the first knob assembly and the second knob assembly are respectively provided with a rotating part which is respectively a first rotating part and a second rotating part, and the first rotating part and the second rotating part are arranged in an up-down overlapped mode. The double-rotation type bench control device solves the problem that two independent bench controls are adopted to respectively control the corresponding drainer, and reduces the manufacturing process and the manufacturing cost of the water tank body.

Description

Double-rotation type platform control

Technical Field

The invention belongs to the technical field of machinery, and relates to a bench control, in particular to a double-rotation bench control.

Background

The bottom of general basin inlays and is equipped with the drainer, on the one hand in order to seal the basin cell body, be convenient for in the internal retaining of basin cell, on the other hand in order to communicate the passageway between basin cell body and the sewer pipe, when the water in the basin cell body receives the pollution (wash the water that fruit vegetables or washware left over), need manual the lower cover on the drainer, just can discharge the water in the basin cell body into the sewer pipe, but such operation, need the user stretch into the sewage with the hand, it is comparatively inconvenient, from this, a bench accuse of installing on the basin cell body has been developed, through the bench accuse, carry the drainer for switch on or close the passageway between basin cell body and the sewer pipe, but be provided with two washing tanks on the general basin cell body, consequently, need set up the through-hole of two independent installation bench controls on the basin cell body, increase the manufacturing technology and the cost of basin cell body.

In view of the above, it is desirable to design a stand control that is integrated and can independently control the opening or closing of two drainers in a sink tank.

Disclosure of Invention

The invention aims at solving the problems in the prior art and provides an integrated bench control capable of independently controlling the opening or closing of two drainers in a water tank body.

The aim of the invention can be achieved by the following technical scheme: a dual spin stand control comprising: the two knob assemblies which are mutually overlapped up and down and are operated independently are respectively a first knob assembly and a second knob assembly, wherein one ends of the first knob assembly and the second knob assembly are respectively connected with a zipper, the other ends of the first knob assembly and the second knob assembly are respectively provided with a rotating part which is respectively a first rotating part and a second rotating part, and the first rotating part and the second rotating part are arranged in an up-down overlapped mode.

In the double-rotation type bench control, the first rotating part and the second rotating part are respectively driven by two sets of independent meshing gears, so that the pulling and releasing of the zipper are realized.

In the dual-rotation type bench control, the bench control further comprises a first lifting part and a second lifting part which are respectively in threaded fit with the first rotating part and the second rotating part, wherein one ends of the first lifting part and the second lifting part are respectively connected with the zipper.

In the above-mentioned two-rotation type bench control, the screw connection between the rotating part and the lifting part is divided into two modes, one is that the lifting part is provided with external screw threads, the rotating part is provided with internal screw threads, and the lifting part is embedded into the screw connection in the rotating part; and secondly, an internal thread is arranged on the lifting part, an external thread is arranged on the rotating part, and the rotating part is embedded into the lifting part in a threaded manner.

In the dual rotation type platform control, the first rotation part comprises a first hand wheel, a first gear and a first gear shaft meshed with the first gear are arranged in the first rotation part, wherein the first gear and the first gear shaft can be internally meshed or externally meshed.

In the dual rotation type platform control, the axial length of the second gear shaft in the second rotation part is shorter than that of the first gear shaft, wherein the second gear shaft and the first gear shaft are respectively flush with the end face of one end, connected with the first lifting part, of the second lifting part.

In the above-mentioned two rotatory bench controls, first elevating part includes the first screw rod with first gear shaft spiro union, and wherein, the external screw thread portion of first screw rod meshes with the internal screw thread portion of first gear shaft, and the optical axis portion of first screw rod is connected with the fixing base is nested, and the one end of zip fastener is connected in the hookup location of first screw rod and fixing base.

In the above-mentioned two rotatory bench controls, the second elevating system includes the second screw rod with second gear shaft spiro union, and wherein, the external screw thread portion of second screw rod meshes with the internal screw thread portion of second gear shaft, and the optical axis portion of second screw rod is nested with the fixing base and is connected, and wherein, the optical axis portion of first gear shaft and second gear shaft all inlays the same one end in the fixing base.

In the above-mentioned two rotatory bench controls, the optical axis portion surface of first screw rod and second screw rod all is wavy structure or zigzag structure setting, cooperatees with the wavy or zigzag structure of fixing base internal surface.

In the above-mentioned two-rotation type bench control, a lock nut is screwed on the outer surface of the fixing seat.

Compared with the prior art, the double-rotation type bench control device provided by the invention integrates two knob assemblies which run independently up and down, and controls between the two knob assemblies are not interfered with each other, wherein each knob assembly is matched with a drainer integrated on a water tank body through a zipper, and the pulling and loosening of the zipper and the opening and closing of the drainer are realized through the rotation of the rotating assembly, so that the communication or blocking between the water tank body and a sewer pipeline is realized, the problem that the drainer corresponding to the two independent bench controls are respectively controlled by adopting the two independent bench controls is solved, and the manufacturing process and the manufacturing cost of the water tank body are reduced.

Drawings

Fig. 1 is a partial exploded view a of a dual rotation type station control according to the present invention.

Fig. 2 is a partial exploded view B of a dual rotation type of the present invention.

Fig. 3 is a cross-sectional view of a dual spin bench control of the present invention.

Fig. 4 is a use state diagram of a dual rotation type stage control according to the present invention.

100, a first knob assembly; 110. a first rotating part; 111. a first hand wheel; 112. a first gear; 113. a first gear shaft; 120. a first lifting part; 121. a first screw; 200. a second knob assembly; 210. a second rotating part; 211. the second hand wheel; 212. a second gear; 213. a second gear shaft; 220. a second lifting part; 221. a second screw; 300. a zipper; 400. a fixing seat; 500. a lock nut; 600. a rotating arm; 700. and a water draining cover.

Detailed Description

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

As shown in fig. 1 to 4, the dual rotation type stage control provided by the present invention includes: the two knob assemblies which are mutually overlapped up and down and are independently operated are respectively a first knob assembly 100 and a second knob assembly 200, wherein one end of the first knob assembly 100 and one end of the second knob assembly 200 are respectively connected with a zipper 300, the other ends of the first knob assembly 100 and the second knob assembly 200 are respectively provided with a rotating part which is respectively a first rotating part 110 and a second rotating part 210, and the first rotating part 110 and the second rotating part 210 are in upper and lower overlapped arrangement.

According to the double-rotation type bench control device, two knob assemblies which run independently are integrated up and down, and control between the two knob assemblies is not interfered with each other, wherein each knob assembly is matched with a drainer integrated on a water tank body through the zipper 300, lifting and loosening of the zipper 300 and opening and closing of the drainer are achieved through rotation of the rotating assembly, communication or blocking between the water tank body and a sewer pipe is achieved, the problem that the drainer corresponding to the two independent bench controls are respectively controlled by adopting the two independent bench controls is solved, and manufacturing technology and manufacturing cost of the water tank body are reduced.

Preferably, as shown in fig. 1 to 4, the first rotating part 110 and the second rotating part 210 respectively implement lifting and releasing of the zipper 300 through two sets of independent engagement transmission, thereby implementing lifting and lowering of the drainer, and communication and blocking between the sink body and the sewer pipe. In this embodiment, meshing transmission is adopted, wherein the more commonly used meshing transmission is meshing transmission between gears, or is meshing transmission between rollers, so that through rotating a rotating part, the action transmission of pulling or loosening of the zipper 300 is stable and reliable, in addition, the meshing transmission between gears can change the angle of rotation required by the rotating part when the drainer is lifted or descended through the transmission ratio between two gears, thereby controlling the rotation time of the rotating part, and enabling water in a water tank body to be discharged into a sewer pipeline at the first time, so as to avoid water overflow.

Further preferably, as shown in fig. 1 to 4, the stand control further includes two first lifting parts 120 and second lifting parts 220 respectively screwed to the first rotating part 110 and the second rotating part 210, wherein one ends of the first lifting parts 120 and the second lifting parts 220 are respectively connected with the zipper 300, and the lifting parts are moved up and down by the rotation of the rotating parts, so that the pulling and releasing of the zipper 300 are realized. The spiro union in this embodiment is threaded connection generally, and preferably, the pitch of screw thread is longer to reduce the screw thread number of turns on the rotation part or on the elevating part, on the one hand reduce the manufacturing technology when turning screw thread on the rotation part or on the elevating part, on the other hand can make the water in the basin cell body can discharge in the sewer pipe in the first time, avoid taking place the water and overflow the phenomenon. Further preferably, the screwing between the rotating part and the lifting part can be divided into two modes, one of which is that the lifting part is provided with external threads and the rotating part is provided with internal threads, so that the screwing of the lifting part into the rotating part is realized; and secondly, an internal thread is arranged on the lifting part, and an external thread is arranged on the rotating part, so that the rotating part is embedded into the lifting part in a threaded manner.

Further preferably, as shown in fig. 1 to 4, the first rotating portion 110 includes a first hand wheel 111, and a first gear shaft 113 meshed with the first gear 112 is built in, where the first gear 112 and the first gear shaft 113 may be internally or externally meshed, in this embodiment, the first gear 112 and the first gear shaft 113 are internally meshed, and the first gear 112 is a large gear, and a gear meshed with the large gear on the first gear shaft 113 is a small gear, further preferably, an internal thread is provided on the first gear shaft 113, and is matched with an external thread on the first lifting portion 120, and the first gear shaft 112 is synchronously driven to rotate by the rotation of the first hand wheel 111, so that the first gear shaft 113 is driven to rotate under the meshing effect, thereby realizing lifting and lowering of the first lifting portion 120, and further realizing lifting and releasing of the zipper 300.

It is further preferable that, as shown in fig. 1 to 4, the structure of the second rotating part 210 is similar to that of the first rotating part 110, except that since the meshing part (meshing position between the first gear 112 and the first gear shaft 113) in the first rotating part 110 is higher than the meshing part (meshing position between the second gear 212 and the second gear shaft 213) in the second rotating part 210, the axial length of the second gear shaft 213 is made shorter than that of the first gear shaft 113, wherein the end face of the end of the second gear shaft 213 connected to the second elevating part 220 is flush with the end face of the end of the first gear shaft 113 connected to the first elevating part 120; when the first hand wheel 111 and the second hand wheel 211 rotate at the same angle, the lifting distance of the first lifting portion 120 is equal to the lifting distance of the second lifting portion 220, so as to ensure that the lifting distance of the zipper 300 is equal to the releasing distance, and a user can conveniently control the opening and closing of the two drainers through the console.

Preferably, as shown in fig. 1 to 4, the first lifting part 120 includes a first screw rod 121 screwed with the first gear shaft 113, wherein an external screw thread part of the first screw rod 121 is engaged with an internal screw thread part of the first gear shaft 113, an optical axis part of the first screw rod 121 is nested with the fixing base 400, and one end of the zipper 300 is connected to a connection position of the first screw rod 121 and the fixing base 400. Further preferably, the structure of the second lifting portion 220 is the same as that of the first lifting portion 120, and the external thread portion of the second screw 221 in the second lifting portion 220 is meshed with the internal thread portion of the second gear shaft 213, and the optical axis portion of the second screw 221 is connected with the fixing base 400 in a nested manner, wherein the optical axis portions of the two gear shafts are embedded at the same end of the fixing base 400, preferably, the optical axis portions of the two gear shafts are symmetrically embedded on the fixing base 400, so that the structure of the lifting portion is simplified, and the structure of the bench control becomes more compact.

Further preferably, as shown in fig. 1 to 4, the surface of the optical axis of the first screw 121 is provided in a wavy or zigzag structure, and the zipper 300 connected to the end is clamped between the first screw 121 and the fixing base 400 in cooperation with the wavy or zigzag structure of the inner surface of the fixing base 400, thereby improving the installation firmness of the zipper 300. Further preferably, the optical axis portion structure of the second screw 221 is the same as that of the first screw 121.

Preferably, as shown in fig. 1 to 4, a locking nut 500 is screwed on the outer surface of the fixing base 400, so as to prevent the zipper 300 from moving relatively at the gap between the gear shaft and the fixing base 400, and further improve the installation firmness of the zipper 300.

According to the working principle of the double-rotation type bench control, the hand wheel is rotated to synchronously realize the rotation of the gears, the rotation of the gear shafts is realized through the meshing action between the gears, then the lifting of the screw is realized through the screwing action between the gear shafts and the screw, the lifting or loosening of the zipper 300 is realized, and when the zipper 300 is lifted, the rotating arm 600 at the lower part of the water tank is driven to move upwards, so that the water draining cover 700 on the water tank is lifted, and the communication between the water tank and a sewer pipeline is realized; when the zipper 300 is released, the rotating arm 600 pushing the lower portion of the tub moves downward, thereby releasing the pushing force on the tub upper and lower water covers 700, and blocking the connection between the tub and the sewer line.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. A dual spin stand control, comprising: the two knob assemblies are overlapped and integrated up and down and independently run, namely a first knob assembly and a second knob assembly respectively, wherein one end of the first knob assembly and one end of the second knob assembly are connected with a zipper respectively, the other ends of the first knob assembly and the second knob assembly are provided with a rotating part respectively, namely a first rotating part and a second rotating part, and the first rotating part and the second rotating part are overlapped up and down;

the first rotating part and the second rotating part are respectively driven by two sets of independent meshing so as to realize the lifting and releasing of the zipper;

the bench control further comprises a first lifting part and a second lifting part which are respectively in threaded fit with the first rotating part and the second rotating part, wherein one ends of the first lifting part and the second lifting part are respectively connected with the zipper;

the first rotating part comprises a first hand wheel, a first gear and a first gear shaft meshed with the first gear are arranged in the first hand wheel, wherein the first gear and the first gear shaft can be internally meshed or externally meshed;

the axial length of a second gear shaft in the second rotating part is shorter than that of the first gear shaft, wherein the second gear shaft and the first gear shaft are respectively flush with the end face of one end, connected with the first lifting part, of the second lifting part;

the first lifting part comprises a first screw rod in threaded connection with the first gear shaft, wherein an external thread part of the first screw rod is meshed with an internal thread part of the first gear shaft, an optical axis part of the first screw rod is connected with the fixing seat in a nested manner, and one end of the zipper is connected to the connection position of the first screw rod and the fixing seat;

the second lifting part comprises a second screw rod in threaded connection with the second gear shaft, wherein an external thread part of the second screw rod is meshed with an internal thread part of the second gear shaft, a light shaft part of the second screw rod is connected with the fixing seat in a nested manner, and the light shaft parts of the first gear shaft and the second gear shaft are embedded at the same end of the fixing seat.

2. The dual rotation type platform control according to claim 1, wherein the screw connection between the rotating part and the lifting part is divided into two modes, wherein the lifting part is provided with external threads, the rotating part is provided with internal threads, and the lifting part is embedded into the screw connection in the rotating part; and secondly, an internal thread is arranged on the lifting part, an external thread is arranged on the rotating part, and the rotating part is embedded into the lifting part in a threaded manner.

3. The dual rotation stage according to claim 1, wherein the optical axis surfaces of the first screw and the second screw are each provided in a wavy or zigzag structure, and are engaged with the wavy or zigzag structure of the inner surface of the fixed base.

4. A twin screw bench control as defined in claim 3, wherein a lock nut is threaded onto the outer surface of the mounting base.