CN218818998U - Novel camera support - Google Patents

Abstract

The utility model discloses a novel camera support, include: the camera, the guide rail, the sliding body and the transmission assembly limiting the sliding body to slide stably; the transmission assembly includes: the two transmission shafts, the two racks and the two transmission gears; the camera is fixed above the sliding body; the sliding body is connected to the guide rail in a sliding mode; the two racks are respectively fixed to two sides in the guide rail; the part of the sliding body in the guide rail is provided with a mounting part; one end of each of the two transmission shafts is fixed above the mounting part; the two transmission gears are respectively sleeved on the peripheries of the two transmission shafts to be rotatably connected to the mounting part; the two transmission gears are respectively meshed with the two racks; the sliding body is also provided with a locking assembly for locking the two transmission gears to fix the position of the camera. The utility model discloses a novel camera support makes the camera can carry out stable removal along the guide rail, adjusts the precision height, has improved the installation stability of camera simultaneously, avoids the camera to produce not hard up.

Description

Novel camera support

Technical Field

The utility model relates to a novel camera support.

Background

Industrial 3D cameras are used for image acquisition of production lines and are typically mounted in a configuration that allows for adjustment of the position of the camera. The existing camera mounting structure is simple, so that the mounting stability of the camera is not enough, the camera is easy to loosen, and the camera is easy to shake when being adjusted, thereby affecting the photographing precision of the camera.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel camera support solves the technical problem that above-mentioned prior art exists, adopts following technical scheme:

a novel camera stand, comprising: the camera, the guide rail, the sliding body and the transmission assembly limiting the sliding body to slide stably; the transmission assembly includes: the two transmission shafts, the two racks and the two transmission gears; the camera is fixed above the sliding body; the sliding body is connected to the guide rail in a sliding mode; the two racks are respectively fixed to two sides in the guide rail; the part of the sliding body in the guide rail is provided with a mounting part; one end of each of the two transmission shafts is fixed above the mounting part; the two transmission gears are respectively sleeved on the peripheries of the two transmission shafts so as to be rotationally connected to the mounting part; the two transmission gears are respectively meshed with the two racks; the sliding body is also provided with a locking assembly for locking the two transmission gears to fix the position of the camera.

Further, the locking assembly includes: the locking shaft, the locking gear and the locking inserting shaft; the locking shaft is fixed to the mounting portion; the part of the locking gear is fixedly sleeved on the periphery of the locking inserted shaft to form a locking piece; the sliding body is provided with a locking hole for inserting the locking piece so that the other part of the locking gear is sleeved on the periphery of the locking shaft; the locking insert shaft is provided with an insert hole; the locking shaft is provided with a threaded hole matched with the jack; the locking piece penetrates through the insertion hole through a bolt and is screwed into the threaded hole to be fixedly connected to the locking shaft; the other part of the locking gear is meshed with the two transmission gears when being sleeved on the periphery of the locking shaft.

Further, one end of the locking inserted shaft is connected with a locking cap used for limiting the axial position of the locking gear; the locking cap is sleeved on the periphery of the locking spindle and contacts with the upper part of the locking gear.

Further, the slider body includes: the sliding upper shell and the sliding mounting block; the sliding mounting block is provided with a mounting part; the sliding upper shell is connected to the outer side of the guide rail in a sliding mode; the sliding installation block is fixedly connected to the lower side of the sliding upper shell and slides along the inner part of the guide rail; a gap is formed between the sliding installation block and the bottom of the inner side of the guide rail.

Further, a fixing protrusion is formed at one end of the sliding upper case; a fixing groove for matching with the fixing protrusion is formed at one end of the sliding mounting block; one end of the sliding upper shell is fixed in the fixing groove through the fixing bulge and is fixedly connected to one end of the sliding installation block.

Further, the fixing projection is formed with a threaded hole; the groove wall of the fixing groove is also provided with a threaded hole; the fixing protrusion is sequentially screwed into the two threaded holes through the bolts to be fixed into the fixing groove.

Further, the other end of the sliding upper shell and the other end of the sliding mounting block are both provided with threaded holes; the other end of the sliding upper shell is sequentially screwed into the two threaded holes through bolts to be fixed to the other end of the sliding mounting block.

Furthermore, guide sliding grooves are formed on the outer sides of two sides of the guide rail respectively; guide bulges used for matching with the guide sliding grooves are respectively formed on the inner sides of the two sides of the sliding upper shell; the two guide bulges are connected in the two guide sliding chutes in a sliding manner.

Furthermore, two limiting grooves which are respectively used for limiting the other ends of the two transmission shafts are formed on the inner side of the sliding upper shell; the other ends of the two transmission shafts are respectively inserted into the two limiting grooves.

Furthermore, two mounting bosses are respectively formed on two sides in the guide rail; the two racks are respectively fixed on the two mounting bosses through screws; the mounting boss is also formed with a mounting screw hole for mounting the guide rail on a device on which the camera is mounted.

The utility model discloses an useful part lies in the novel camera support that provides and passes through drive assembly for the camera can carry out stable removal along the guide rail, and it is high to adjust the precision, has improved the installation stability of camera simultaneously, avoids the camera to produce not hard up.

Drawings

Fig. 1 is a schematic view of a novel camera stand according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of the novel camera support of FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of the novel camera mount of FIG. 1 showing the locking gear;

FIG. 4 is a schematic view of the guide rail of the novel camera bracket of FIG. 1;

fig. 5 is a schematic view of a sliding upper shell of the novel camera bracket of fig. 1;

FIG. 6 is a schematic view of a locking assembly of the novel camera stand of FIG. 1;

the novel camera support 10, the camera 11, the guide rail 12, the guide chute 121, the mounting boss 122, the mounting screw hole 123, the sliding body 13, the sliding upper shell 131, the fixing protrusion 1311, the guide protrusion 1312, the limiting groove 1313, the locking hole 1314, the sliding mounting block 132, the fixing groove 1321, the mounting portion 1322, the transmission shaft 14, the rack 15, the transmission gear 16, the locking shaft 17, the threaded hole 171, the locking gear 18, the locking insertion shaft 19, the insertion hole 191 and the locking cap 20.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, a novel camera stand 10 according to the present application includes: camera 11, guide rail 12, slider 13 and transmission assembly, this transmission assembly can inject slider 13 and carry out steady slip to guarantee the stability of camera 11 motion, and then guarantee camera 11's the shooting precision and avoid camera 11's camera lens to produce because of rocking and become flexible in the removal process. Specifically, the transmission assembly includes: two drive shafts 14, two racks 15 and two transfer gears 16. When the camera is installed, the camera 11 is fixed above the sliding body 13, the sliding body 13 is slidably connected to the guide rail 12, the two racks 15 are respectively fixed to two sides in the guide rail 12, the portion of the sliding body 13 located in the guide rail 12 is formed with an installation portion 1322, one end of each of the two transmission shafts 14 is respectively fixed above the installation portion 1322, the two transmission gears 16 are respectively sleeved on the outer peripheries of the two transmission shafts 14 to be rotatably connected to the installation portion 1322, and meanwhile, the two transmission gears 16 are respectively meshed with the two racks 15. Through the installation structure, when the camera 11 is moved, the sliding body 13 is pushed to enable the sliding body 13 to slide relative to the guide rail 12, the two transmission gears 16 are driven to respectively carry out meshing movement along the two racks 15, so that the movement track of the sliding body 13 can be strictly limited through the matching of the two transmission gears 16 and the two racks 15, and the sliding body 13 is prevented from shaking in the moving process.

Further, the slider 13 is also provided with a locking assembly. The locking assembly is used to lock the two transmission gears 16 to fix the position of the camera 11. That is, when the camera 11 is moved to a preset position, the position of the slider 13 can be locked using the locking member.

Therefore, the novel camera support 10 is provided with the transmission assembly, so that the camera 11 can stably move along the guide rail 12, the adjustment precision is high, the installation stability of the camera 11 is improved, the camera 11 is prevented from loosening, and the novel camera support is higher in superiority than the existing camera 11 moving assembly.

As a specific embodiment, the locking assembly comprises: a lock shaft 17, a lock gear 18, and a lock insertion shaft 19. When mounted, the lock shaft 17 is fixed to the mounting portion 1322. Part of the lock gear 18 is fixedly fitted to the outer periphery of the lock shaft 19 so that the lock gear 18 and the lock shaft 19 together constitute a lock member. The sliding body 13 is formed with a locking hole 1314 into which a locking member is inserted such that the other portion of the locking gear 18 is fitted over the outer circumference of the locking shaft 17. The locking insertion shaft 19 is formed with insertion holes 191, and the locking shaft 17 is formed with screw holes 171 for fitting with the insertion holes 191, so that the locking member is fixedly coupled to the locking shaft 17 by passing bolts through the insertion holes 191 and screwing the locking member into the screw holes 171, while the other portion of the locking gear 18 is fitted around the outer circumference of the locking shaft 17 while the locking gear 18 is engaged with the two transmission gears 16. When the position of the sliding body 13 needs to be locked, the locking piece is inserted into the locking hole 1314, so that the other part of the locking gear 18 is sleeved on the periphery of the locking shaft 17 and meshed with the two transmission gears 16; the bolt is then inserted into the insertion hole 191 and screwed into the screw hole 171 of the locking shaft 17 to fixedly connect the locking member to the locking shaft 17. The locking gear 18 is fixed, and the two transmission gears 16 are locked with each other because the rotation directions of the two transmission gears 16 are opposite and are engaged with the fixed locking gear 18, so that the sliding body 13 is prevented from sliding relative to the guide rail 12 by the engagement structure of the transmission gears 16 and the rack 15, the position of the camera 11 is locked, and the operation is convenient.

Further, a locking cap 20 is connected to one end of the locking insertion shaft 19. The locking cap is sleeved on the periphery of the locking spindle 19 and contacts the upper side of the locking gear 18, so as to limit the axial position of the locking gear 18. In this embodiment, the locking cap and the locking gear 18 are both fixedly connected to the periphery of the locking socket 19 by interference fit.

As a specific embodiment, the slider 13 includes: a sliding upper housing 131 and a sliding mounting block 132. The slide mounting block 132 is formed with the above-mentioned mounting portion 1322, and the lock shaft 17, the transmission gear 16, and the transmission shaft 14 are all mounted in this mounting portion 1322. The sliding upper case 131 is slidably coupled to an outer side of the guide rail 12, and the sliding mounting block 132 is fixedly coupled to a lower side of the sliding upper case 131 and slides along an inside of the guide rail 12. A gap is formed between the slide mounting block 132 and the bottom of the inner side of the guide rail 12, which can reduce the friction force when the slide mounting block 132 slides.

Further, a fixing protrusion 1311 is formed at one end of the sliding upper case 131, and a fixing groove 1321 is formed at one end of the sliding installation block 132. One end of the sliding upper case 131 is fixed in the fixing groove 1321 by the fixing protrusion 1311 to be fixedly coupled to one end of the sliding installation block 132. The fixing groove 1321 is used for matching with the fixing protrusion 1311 to perform limit fixing on the sliding mounting block 132, and the mounting accuracy of the sliding mounting block 132 can be improved through the matching of the groove and the protrusion. Specifically, the fixing protrusion 1311 is formed with a screw hole 171, and a groove wall of the fixing groove 1321 is also formed with the screw hole 171. The fixing protrusions 1311 are sequentially screwed into the two threaded holes 171 and fixed to the fixing grooves 1321 by bolts, so that the assembling structure is simple, and the assembly and disassembly are convenient.

Further, the other end of the sliding upper case 131 and the other end of the sliding mounting block 132 are each formed with a screw hole 171, and the other end of the sliding upper case 131 is fixed to the other end of the sliding mounting block 132 by bolts sequentially screwed into the two screw holes 171. Thus, both ends of the sliding upper case 131 and both ends of the sliding installation block 132 are fixed by bolts, respectively, and the installation structure is simple.

As a specific embodiment, two outer sides of the guide rail 12 are respectively formed with guide sliding grooves 121, and two inner sides of the sliding upper case 131 are respectively formed with guide protrusions 1312 for engaging the guide sliding grooves 121. The two guide protrusions 1312 are slidably connected in the two guide sliding grooves 121, so that the sliding connection structure is smoother.

As a specific embodiment, two limiting grooves 1313 are further formed at the inner side of the sliding upper case 131. The two limiting grooves 1313 are used to define the other ends of the two transmission shafts 14, respectively. When being installed, the other ends of the two transmission shafts 14 are inserted into the two limiting grooves 1313, respectively, so that the transmission shafts 14 can be prevented from being deformed after being used for a long time.

In a specific embodiment, two mounting bosses 122 are formed on two sides of the guide rail 12. The two racks 15 are fixed to the two mounting bosses 122 by screws, respectively. The mounting boss 122 is also formed with a mounting screw hole 123. The mounting screw holes 123 are used to mount the guide rail 12 to the apparatus on which the camera 11 is mounted.

In this scheme, all holes that are used for the bolt fastening all adopt the hole of formula of sinking, can avoid the tip of bolt and other structures to take place the friction like this.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (10)

1. A novel camera stand, comprising: the camera, the guide rail, the sliding body and the transmission assembly limiting the sliding body to slide smoothly; the transmission assembly includes: two transmission shafts, two racks and two transmission gears; the camera is fixed above the sliding body; the sliding body is slidably connected to the guide rail; the two racks are respectively fixed to two sides in the guide rail; the part of the sliding body, which is positioned in the guide rail, is provided with a mounting part; one ends of the two transmission shafts are respectively fixed above the mounting part; the two transmission gears are respectively sleeved on the peripheries of the two transmission shafts so as to be rotationally connected to the mounting part; the two transmission gears are respectively meshed with the two racks; the sliding body is further provided with a locking assembly used for locking the two transmission gears so as to fix the position of the camera.

2. The novel camera stand of claim 1,

the locking assembly includes: the locking shaft, the locking gear and the locking inserting shaft; the locking shaft is fixed to the mounting portion; the part of the locking gear is fixedly sleeved on the periphery of the locking inserted shaft to form a locking piece; the sliding body is provided with a locking hole for inserting the locking piece so that the other part of the locking gear is sleeved on the periphery of the locking shaft; the locking insertion shaft is provided with an insertion hole; the locking shaft is provided with a threaded hole matched with the jack; the locking piece penetrates through the insertion hole through a bolt and is screwed into the threaded hole to be fixedly connected to the locking shaft; the other part of the locking gear is meshed with the two transmission gears simultaneously when being sleeved on the periphery of the locking shaft.

3. The novel camera stand of claim 2,

one end of the locking inserted shaft is connected with a locking cap used for limiting the axial position of the locking gear; the locking cap is sleeved on the periphery of the locking inserted shaft and contacts with the upper part of the locking gear.

4. The novel camera stand of claim 1,

the sliding body includes: the sliding upper shell and the sliding mounting block; the sliding mounting block is provided with the mounting part; the sliding upper shell is connected to the outer side of the guide rail in a sliding mode; the sliding mounting block is fixedly connected to the lower side of the sliding upper shell and slides along the inner part of the guide rail; a gap is formed between the sliding installation block and the bottom of the inner side of the guide rail.

5. The novel camera stand of claim 4,

a fixing protrusion is formed at one end of the sliding upper shell; a fixing groove used for being matched with the fixing bulge is formed at one end of the sliding installation block; one end of the sliding upper shell is fixed in the fixing groove through the fixing bulge and is fixedly connected to one end of the sliding installation block.

6. The novel camera stand of claim 5,

the fixing bulge is provided with a threaded hole; a threaded hole is also formed in the groove wall of the fixing groove; the fixing protrusion is sequentially screwed into the two threaded holes through bolts to be fixed into the fixing groove.

7. The novel camera stand of claim 6,

the other end of the sliding upper shell and the other end of the sliding mounting block are both provided with threaded holes; the other end of the sliding upper shell is sequentially screwed into the two threaded holes through bolts to be fixed to the other end of the sliding mounting block.

8. The novel camera stand of claim 4,

guide sliding grooves are formed in the outer sides of the two sides of the guide rail respectively; guide bulges used for matching the guide sliding grooves are formed on the inner sides of the two sides of the sliding upper shell respectively; the two guide protrusions are connected in the two guide sliding grooves in a sliding mode.

9. The novel camera stand of claim 4,

two limiting grooves which are respectively used for limiting the other ends of the two transmission shafts are formed on the inner side of the sliding upper shell; the other ends of the two transmission shafts are respectively inserted into the two limiting grooves.

10. The novel camera stand of claim 1,

two mounting bosses are respectively formed on two sides in the guide rail; the two racks are respectively fixed on the two mounting bosses through screws; the mounting boss is also provided with a mounting screw hole for mounting the guide rail on equipment for mounting the camera.

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