A kind of wire drawing machine sieve plate
Technical field
The utility model relates to dried meat floss drawing machine technical field more particularly to a kind of wire drawing machine sieve plates.
Background technique
Wire drawing machine is the important equipment in dried meat floss production process.Cold cuts can be processed into filiform by wire drawing machine, thus greatly
Mitigate the difficulty of artificial dried meat floss, improve dried meat floss production efficiency, reduces dried meat floss production cost.Existing wire drawing machine generally uses
Cutter made of the rigid materials such as scraping blade, which quickly rotates and twists the mode of disconnected cold cuts fiber, makes dried meat floss.Due to what is contained in meat
The ingredient that fascia, sclerotin etc. influence dried meat floss quality is not easy to be separated in pretreatment, and therefore, wire drawing machine can be in discharge port
Sieve plate is arranged in position.Existing wire drawing machine sieve-plate structure and function are relatively simple, and constant aperture is generally provided only on sieve plate
Sieve pore does not adjust the function of sieve pore hole area.When producing the dried meat floss of different size or type, user needs wire drawing machine
Sieve plate disassembles carry out integral replacing, time-consuming and laborious.
Utility model content
The purpose of this utility model is that: aiming at the problem that existing wire drawing machine sieve plate can not adjust sieve pore hole area, this reality
A kind of wire drawing machine sieve plate is provided with novel.
The utility model specifically uses following technical scheme: a kind of wire drawing machine sieve plate, including arc to achieve the goals above
The bar shaped screen hole opened up on shape plate and arc panel, arc panel lower section are provided with adjusting block and use for adjusting bar shaped slot size
In the adjusting bracket component for driving adjusting block mobile, arc panel bottom surface is close in adjusting block top surface, and arc panel bottom surface is provided with several use
In the connector of connection adjusting bracket component;Adjusting bracket component includes the first guide rod and the second guide rod disposed in parallel, and first
Guide rod and the second guide rod are movably connected in arc panel bottom surface by being correspondingly connected with part, and it is sliding that first is arranged on the first guide rod
Block is arranged with the second sliding block with the cooperation of the first sliding block on the second guide rod, is provided with arc between the first sliding block and the second sliding block
Shape connecting rod, curved rod are fixedly connected with adjusting block.
Preferably, the first guide rod is threadedly engaged with the first sliding block, first guide rod one end is additionally provided with for driving
The driving assembly of first guide rod rotation.
Preferably, driving assembly is the knob for manually adjusting being fixed on the first guide rod.
Preferably, driving assembly is decelerating motor, geared motor output shaft is fixedly connected with the first guide rod.
Preferably, offer several row's bar shaped screen holes on arc panel, it is provided with below arc panel several with corresponding bar shaped
The adjusting block of sieve pore cooperation is arranged with several first sliding blocks and several second sliding on the first guide rod and the second guide rod respectively
Block, is provided with curved rod between corresponding first sliding block and the second sliding block, the corresponding adjusting block of every row's bar shaped screen hole is solid
It is scheduled on the same corresponding curved rod.
The beneficial effects of the utility model are as follows:
1, the adjusting block that wire drawing machine sieve plate bottom surface is arranged in of the utility model and adjusting bracket component can be with flexible modulation items
The hole area of shape sieve pore adjusts the position of the first sliding block and the second sliding block on the first guide rod, the second guide rod, curved rod
Adjusting block can be driven mobile and shelter from part bar shaped screen hole.Above-mentioned measure can simplify the operating procedure of wire drawing machine, nothing
Need to change wire drawing machine sieve plate neatly can need to adjust slot size according to dried meat floss production, save the economic cost of production
And time cost.
2, first guide rod of the utility model and the first sliding block are threadedly engaged, and driving assembly drives the rotation of the first guide rod
After the first sliding block can be driven to move on the first guide rod, this driving method degree of regulation is high, and structure is simple and operation is steady
It is fixed.When being provided with multiple rows of bar shaped screen hole on arc panel, it need to only increase corresponding curved rod, the first sliding block and the second sliding block
Quantity, so that it may synchronously complete the adjusting work of all bar shaped screen holes.
3, the driving assembly of the utility model can also be driven in such a way that knob manually adjusts using decelerating motor
Dynamic mode, user can be adjusted according to used structure of wire drawing machine type and actual use demand.
4, arc panel bottom surface is close in the adjusting block top surface of the utility model, can prevent when adjusting bar shaped screen hole hole area
Dried meat floss, which enters in the gap between adjusting block and arc panel, causes adjusting block stuck, guarantees the normal regulating function of adjusting block.
Detailed description of the invention
Fig. 1 is the utility model bottom view;
Fig. 2 is the utility model top view;
Fig. 3 is sectional view along A-A in the utility model Fig. 1;
Appended drawing reference: 1- arc panel;2- bar shaped screen hole;3- adjusting block;4- adjusting bracket component;5- connector;4.1- first
Guide rod;The second guide rod of 4.2-;The first sliding block of 4.3-;The second sliding block of 4.4-;4.5- curved rod;4.6- driving assembly.
Specific embodiment
In order to which those skilled in the art better understand the utility model, with reference to the accompanying drawing with following embodiment to this
Utility model is described in further detail.
Embodiment 1
A kind of wire drawing machine sieve plate as shown in Figs. 1-3, including the bar shaped screen hole 2 opened up on arc panel 1 and arc panel 1, arc
The adjusting block 3 for adjusting 2 size of bar shaped screen hole and the adjusting bracket group for driving adjusting block 3 mobile are provided with below shape plate 1
Part 4,1 bottom surface of arc panel are provided with several for connecting the connector 5 of adjusting bracket component 4;Adjusting bracket component 4 includes being arranged in parallel
The first guide rod 4.1 and the second guide rod 4.2, the first guide rod 4.1 and the second guide rod 4.2 are living by being correspondingly connected with part 5
It is dynamic to be connected to 1 bottom surface of arc panel, the first sliding block 4.3 is arranged on the first guide rod 4.1, be arranged on the second guide rod 4.2 with
Second sliding block 4.4 of the first sliding block 4.3 cooperation, is provided with curved rod 4.5, arc between the first sliding block 4.3 and the second sliding block 4.4
Shape connecting rod 4.5 is fixedly connected with adjusting block 3.It is adjusted in synchronism the first sliding block 4.3 and the second sliding block 4.4, drives curved rod 4.5
Adjusting block 3 moves up and down to adjust the hole area of bar shaped screen hole 2.
Embodiment 2
The present embodiment is further optimized on the basis of above embodiments, specifically:
First guide rod 4.1 is threadedly engaged with the first sliding block 4.3, and 4.1 one end of the first guide rod is additionally provided with for driving
The driving assembly 4.6 of first guide rod 4.1 rotation.Driving assembly 4.6 drives the rotation of the first guide rod 4.1, the first guide rod 4.1
Bidirectional rotation the first sliding block 4.3 can be driven to move back and forth on the first guide rod 4.1.
Embodiment 3
The present embodiment is further optimized on the basis of above embodiments, specifically:
Driving assembly 4.6 is the knob for manually adjusting being fixed on the first guide rod 4.1.
Embodiment 4
The present embodiment is further optimized on the basis of above embodiments, specifically:
Driving assembly 4.6 is decelerating motor, and geared motor output shaft is fixedly connected with the first guide rod 4.1.
Embodiment 5
The present embodiment is further optimized on the basis of above embodiments, specifically:
Several row's bar shaped screen holes 2 are offered on arc panel 1, are provided with and several are matched below arc panel 1 with corresponding bar shaped screen hole 2
It is arranged with several first sliding blocks 4.3 and several second respectively on the adjusting block 3 of conjunction, the first guide rod 4.1 and the second guide rod 4.2
Sliding block 4.4, is provided with curved rod 4.5 between corresponding first sliding block 4.3 and the second sliding block 4.4, every row's bar shaped screen hole 2 is right
The adjusting block 3 answered is each attached on the same corresponding curved rod 4.5.When multiple rows of bar shaped screen hole 2 is arranged on arc panel 1,
The bar shaped screen hole 2 of same row can be controlled and be adjusted by corresponding one group of first sliding block 4.3, the second sliding block 4.4 and curved rod 4.5
Moving distance is saved, as soon as every increase row bar shaped screen hole 2, corresponding increase by one the first sliding block 4.3, the second sliding block 4.4 and arc
Connecting rod 4.5.The driving of all adjusting blocks 3 can be driven the rotation of the first guide rod 4.1 to complete by driving assembly 4.6.
The above, the only preferred embodiment of the utility model, are not intended to limit the utility model, the utility model
Scope of patent protection be subject to claims, it is equivalent made by all specifications and accompanying drawing content with the utility model
Structure change similarly should be included in the protection scope of the utility model.